CN113467257A - Massage, illumination, sound, display, fragrance expansion, air supply equipment, mobile terminal, storage medium, home system and control method - Google Patents

Abstract

The invention provides an intelligent home system and a control method thereof, wherein the intelligent home system is composed of a plurality of intelligent home devices which are in communication connection with each other, the use state information of one intelligent home device has a corresponding relation with the action modes of other intelligent home devices, and specifically, the control method of the intelligent home system comprises the following steps: s1: acquiring a plurality of different state information of intelligent household equipment; s2: determining an action mode of the other intelligent household equipment corresponding to the acquired state information; s3: the determined action mode is executed, linkage among a plurality of intelligent household devices can be realized through the control method, more diversified use scenes are provided for users, and services provided by the intelligent household system are more humanized and intelligent.

Description

Massage, illumination, sound, display, fragrance expansion, air supply equipment, mobile terminal, storage medium, home system and control method

Technical Field

The invention relates to the technical field of intelligent home, in particular to a massage device, a lighting device, an intelligent home system and a control method thereof.

Background

In the prior art, along with the increasing demand of the public on the intellectualization of the home devices, the smart home devices are gradually popularized and provide more convenience for users to use, for example, one instruction can control a plurality of smart home devices of the same type in a centralized manner, or the mode of sending the instruction to the smart home devices can be diversified, can be a traditional remote control device, and can also be human body sensing or iris detection and the like.

Multiple intelligent household devices may be arranged in the same family, but the existing use of the multiple intelligent household devices still remains simple sharing among parameter data, and the exploration on the linkage of working modes among the multiple different types of intelligent household devices is not deep enough.

For example, in some prior arts, the parameters of the current device may be set in a manner that the operation parameters of other same or similar devices are synchronized to the local (e.g., data of the same smart home device a1 is synchronized to the same smart home device a 2). However, the above parameter setting manner adopted in the prior art is difficult to implement interconnection and shared use of different types of data and working modes between different smart home devices.

For example, when a user uses a massage chair working mode including mechanical parameters such as massage force and frequency information of the massage chair, the setting can be properly performed according to a preset mode of the massage chair or the preference and the requirement of the user, when the user uses the lighting device, the lighting mode including optical parameters such as illumination and light intensity of the lighting device can be adjusted or switched, but between the massage chair working mode and the lighting device working mode, the user needs to set and adjust the massage chair and the lighting device each time, the experience of the user on the massage chair working mode and the experience of the lighting device are difficult to be organically combined, and the interconnection interaction among different types of intelligent home devices cannot bring brand new experience and experience to the user.

Disclosure of Invention

The present invention is provided in view of the above problems, and an object of the present invention is to provide a control method that can facilitate the mutual association and interaction between different types of status information or working modes of different smart home devices.

The invention provides a control method, which is applied to an intelligent home system, wherein the intelligent home system comprises a plurality of intelligent home devices, and the control method comprises the following steps:

S1: acquiring a plurality of different state information of intelligent household equipment;

s2: determining an action mode of another intelligent household device corresponding to the acquired state information;

s3: the determined action pattern is executed.

In the technical scheme, the intelligent home system can determine the action mode of another intelligent home device corresponding to the state information by acquiring a plurality of different state information of one intelligent home device, namely, the intelligent home system can establish mode association between different intelligent home devices, and establish association between a plurality of different state information of one intelligent home device and the action mode of another intelligent home device, thereby realizing parameter association of different types between different intelligent home devices, realizing interconnection and interaction between different intelligent home devices, and bringing brand new experience and feeling to a user.

For example, a massage chair as one of smart home devices has difficulty in establishing a correlation between parameters such as massage strength, massage part and frequency and optical parameters of an illumination device as another smart home device by relying on conversion between the parameters; according to the method, the intelligent home equipment is matched with the intelligent home equipment in the action mode, for example, mechanical parameters such as massage strength, massage part and frequency of a massage chair are utilized, according to the massage use purpose of a user, for example, sleep aiding is carried out, then the relevance between the intelligent home equipment and the sleep mode of the lighting device is established, the lighting device is correspondingly indicated to read related optical adjusting parameters of the sleep mode, therefore, the relevance of specific parameters of the intelligent home equipment is established among different intelligent home equipment, the state information of different types is convenient to interconnect among different intelligent home equipment, and therefore the interconnection interaction among the intelligent home equipment brings brand new experience and feeling to the user.

Above-mentioned technical scheme, both solved and controlled respectively each intelligent household equipment complex operation and the unable problem of associative action coordination between each intelligent household equipment, for example, the user wants to help the dormancy and uses massage armchair mode operation, and lighting apparatus can't be with the mode phase-match of massage armchair, still with the associativity problem that the mode operation brought, can be for the ingenious collocation between the different intelligent household equipment again, the combination provides the system platform, realize more various, the construction of practical application scene, make the service that intelligent household system provided more intelligent, diversification and hommization, bring more brand-new comprehensive experience and experience for the user.

In a preferred embodiment of the present invention, step S3 includes operating the smart home device with predetermined information, where the predetermined information is any one or more of massage strength, massage position, massage frequency, temperature, color temperature, hue, illuminance, height position, illumination range, air volume, sound intensity, fragrance, and display content.

In this technical solution, there may be a plurality of types of prescribed information, and the types of prescribed information are known, and the prescribed information covers a plurality of different smart home devices, that is, in step S2, one or more additional smart home devices may be provided, and may be linked with the smart home device in step S1, so that the linked relationship between different smart home devices is more compact and diverse.

In a preferred embodiment of the present invention, one smart home device in step S1 is a massage device, and another smart home device in step S2 is a lighting device.

In a preferred embodiment of the present invention, the lighting device includes a first lighting device, and the first state information of the first stage and the second state information of the second stage of the massage device are acquired in step S1, the first stage and the second stage are sequentially connected, the first stage is prior to the second stage, and the first operation mode corresponding to the first state information and the second operation mode corresponding to the second state information are determined in step S2, and the second operation mode includes controlling the output of the first lighting device so as to reduce the color temperature or change the color tone to a warm tone while maintaining a first range of the illuminance below a first predetermined value in an initial period of the second stage.

In the technical scheme, corresponding to different state information of the massage equipment, illumination information is the same among all action modes of the illumination equipment, and color temperature or hue information is different, wherein because human eyes are sensitive to the change of the illumination information, the illumination information is the same, so that the difference among the different action modes is smaller, namely, the action modes of the illumination equipment are smoothly switched by reducing variables; the difference of the color temperature or the hue information can lead to different created lighting atmospheres under different action modes, specifically, when the color temperature is higher or the color tones are more blue, purple, green, cyan, indigo and other cold colors, the lighting atmosphere is usually cool and fast, and the atmosphere can be matched with the specific state information of the massage equipment when the user wants to massage the scene lightly and quickly; when the color temperature is low or the color tone is shifted to a warm color tone such as red, yellow, orange, brown, etc., the lighting atmosphere is usually warm, which can be matched with specific status information of the massage apparatus at the time of the massage scene where the user wishes to aid sleep. When the illuminance is kept in the first range below the first predetermined value and the color temperature is lowered or the hue is changed to a warm hue, the user can be guided to feel the warmth of the environment and to be favorable for falling asleep by adjusting the color temperature or the hue in the case where the ambient illuminance is small. Therefore, in the technical scheme, different color temperatures or different tone information correspond to different state information or different stages of the massage equipment, and the lighting environment which is matched with the use purpose of the user and matched with the massage atmosphere can be created, so that the user can obtain more comfortable use experience under the condition of interconnection and interaction of different intelligent household equipment.

In a preferred embodiment of the present invention, the lighting apparatus further includes a second lighting device disposed in the same space as the first lighting device and having a height lower than that of the first lighting device, third state information of a third stage consecutive to the second stage is further acquired in step S1, and a third operation mode corresponding to the third state information is determined in step S2, and the third operation mode includes turning off the first lighting device, turning on the second lighting device, and disposing an illuminance of the second lighting device in the first range in a start period of the third stage.

In the technical scheme, the illumination information and/or the height position information of the lighting device are/is changed according to different state information of the massage device, wherein the illumination information and the height position information of the lighting device are/is changed, and more diversified lighting environments such as lighting environments comprising the matching of the high position and the low position of the lighting device can be created. The user using the massage apparatus is usually in a lying or semi-lying posture, the line of sight of the user is inclined upward, and the user can definitely feel the change of the illumination environment by turning off the first illumination device located at the higher position and then turning on the second illumination device located at the lower position in the third action mode, and meanwhile, the illumination of the environment is further reduced, so that the user can be guided to enter the sleep state. Therefore, according to the technical scheme, more choices can be provided for the specific association mode of the massage device and the lighting device, so that more various use environment experiences can be provided for users, and the users can be helped to enter a specific state.

In a preferred embodiment of the present invention, the third operation mode further includes an illumination device provided in correspondence with the massage device at a predetermined dimming frequency with a predetermined dimming curve.

In the technical scheme, the illuminating device corresponding to the massage device is arranged, the illuminating mode of the illuminating device is flickering, and the flickering light-emitting mode can create a flickering and dim illuminating atmosphere. The corresponding arrangement may be that the massage device and the illumination device have substantially the same height, or the illumination device may be arranged within the range that is accessible to the user's sight line in the massage device, and is not particularly limited as long as the flicker emitted by the illumination device is perceived by the user.

In the technical scheme, because the flickering of the lighting equipment can be sensed by the user in the massage equipment, and the flickering has the effect of causing drowsiness, the lighting equipment and the massage equipment are linked in such a way, so that the drowsiness of the user can be guided and promoted while the massage is carried out, and the user can enter a sleep state as soon as possible.

In a preferred embodiment of the present invention, fourth state information of a fourth stage spaced apart from and later than the third stage is further acquired in step S1, and a fourth operation mode corresponding to the fourth state information is determined in step S2, the fourth operation mode including turning off the second lighting device, turning on the first lighting device, and setting the illuminance of the first lighting device in a second range higher than the second prescribed value at the start of the fourth stage.

The user using the massage equipment is usually in a lying or semi-lying posture, the sight line of the user is inclined upwards, after the third action mode, the user can possibly enter the sleep in the massage equipment in the lying or semi-lying posture, after a short sleep and rest, the technical scheme of the invention enables the user to clearly feel the change and the stimulation of the illumination environment by turning off the second illumination device at the lower position and then turning on the first illumination device at the higher position, and meanwhile, the ambient illumination is increased, so that the user is guided to be away from the sleep state to be clear.

Therefore, according to the technical scheme, more choices can be provided for the specific association mode of the massage equipment and the lighting equipment, more various using environment experiences can be provided for users, and the users can be helped to enter a specific state.

In a preferred embodiment of the present invention, the lighting apparatus includes a first lighting device and a second lighting device, the first lighting device and the second lighting device are disposed in the same space, and the second lighting device is disposed at a lower position than the first lighting device,

the plurality of different pieces of status information acquired in step S1 include fifth status information of a fifth stage and sixth status information of a sixth stage, where the fifth stage and the sixth stage are separated from each other in time series, and the fifth stage precedes the sixth stage;

Determining a fifth action mode corresponding to the fifth state information and a sixth action mode corresponding to the sixth stage in step S2;

the sixth action mode in step S3 includes,

in the initial period of the sixth stage, the second lighting device is turned off, the first lighting device is turned on, and the illuminance of the first lighting device is arranged in a third range higher than the second prescribed value.

In the sixth operation mode in the sixth stage, the second illumination device is turned off, the first illumination device positioned higher than the second illumination device is turned on, and the illuminance of the first illumination device is further arranged in a third range higher than the second predetermined value.

Because the user using the massage apparatus is usually in a lying or semi-lying posture, the line of sight is inclined upwards, and the second lighting device at the lower position is turned off and then the first lighting device at the higher position is turned on in the sixth action mode, so that the user can definitely feel the change and stimulation of the illumination environment, the user is prevented from entering a sleep state or awakening the user from a rest state, and the massage apparatus is beneficial to guiding and reminding the user to smoothly enter the next preset working state. Therefore, according to the technical scheme, more choices are provided for the specific association mode of the massage device and the lighting device, so that more various use environment experiences are provided for a user, and the user is helped to enter a specific state.

Meanwhile, because the lighting devices at different height positions are turned on and off, the lighting devices at different positions can be adjusted in a time sequence manner matched with the working mode of the massage device, so that each lighting device can play a role in indicating different positions in the space, and the switching of user scenes can be guided and implied along with the time sequence switching of the lighting devices, so that the user can smoothly enter the next scene mode in a psychological level.

In a preferred embodiment of the present invention, the plurality of smart home devices are disposed in the same or adjacent space, and each of the other smart home devices in step S2 operates at the predetermined position of the smart home device in step S1.

In this technical scheme, a plurality of intelligent household equipment are disposed in same or adjacent space for the utilization efficiency in space has obtained the improvement, and in particular, because lighting device's illuminating effect is influenced by illumination angle and illumination zone greatly, consequently, when being disposed in same or adjacent space, the illumination atmosphere that more is favorable to making can effectively cover other intelligent household equipment, ensures that the user can experience the interconnection interaction between the different intelligent household equipment, thereby guarantees user's good experience.

The invention also provides an intelligent household system which comprises a plurality of intelligent household devices, wherein at least one intelligent household device is in communication connection with other intelligent household devices, and the other intelligent household devices can correspondingly change the action mode based on the change of the state information of the intelligent household devices in communication connection with the other intelligent household devices.

In the technical scheme, the intelligent home system can obtain a plurality of different state information of one intelligent home device, and determine the action mode of the other intelligent home device corresponding to the state information, namely, the action mode of the other intelligent home device is corresponding to and matched with the state information, and the corresponding and matching relation is based on the establishment of the relevance among different intelligent home devices.

The invention also provides an air supply device, an aroma expansion device, a display device, a sound device and a massage device which can be controlled by the control method or can control other intelligent household devices through the control method; and a mobile terminal and a storage medium to which the above control method is applied.

Drawings

Fig. 1 is a schematic diagram of an intelligent home system in a first embodiment of the invention;

fig. 2 is a schematic flow chart of a control method of an intelligent home system in a first embodiment of the present invention;

fig. 3 is a schematic diagram of an intelligent home system in a second embodiment of the present invention;

fig. 4 is a schematic flowchart of a control method of an intelligent home system according to a second embodiment of the present invention;

fig. 5 is a schematic diagram of an intelligent home system in a third embodiment of the present invention;

fig. 6 is a schematic flowchart of a control method of an intelligent home system according to a third embodiment of the present invention;

fig. 7 is a schematic diagram of an intelligent home system in a fourth embodiment of the present invention;

fig. 8 is a schematic flowchart of a control method of an intelligent home system according to a fourth embodiment of the present invention;

fig. 9 is a schematic view of an intelligent home system in a fifth embodiment of the present invention;

fig. 10 is a schematic view of an intelligent home system according to a sixth embodiment of the present invention;

Fig. 11 is a flowchart illustrating a control method of an intelligent home system according to a sixth embodiment of the present invention;

fig. 12 is a schematic view of an intelligent home system according to a seventh embodiment of the present invention;

fig. 13 is a flowchart illustrating a control method of an intelligent home system according to a seventh embodiment of the present invention;

fig. 14 is a schematic view of an intelligent home system in an eighth embodiment of the present invention;

fig. 15 is a flowchart illustrating a control method of an intelligent home system according to an eighth embodiment of the present invention;

fig. 16 is a schematic view of an intelligent home system in a tenth embodiment of the present invention;

fig. 17 is a flowchart illustrating a control method of an intelligent home system according to a tenth embodiment of the present invention;

fig. 18 is a schematic view of an intelligent home system in a thirteenth embodiment of the invention;

fig. 19 is a flowchart illustrating a control method of an intelligent home system according to a thirteenth embodiment of the present invention;

fig. 20 is a schematic view of an intelligent home system in a fourteenth embodiment of the invention;

fig. 21 is a flowchart illustrating a control method of an intelligent home system according to a fourteenth embodiment of the present invention;

fig. 22 is a schematic view of an intelligent home system in a fifteenth embodiment of the present invention;

fig. 23 is a flowchart illustrating a control method of an intelligent home system according to a fifteenth embodiment of the present invention;

Fig. 24 is a flowchart illustrating a control method of an intelligent home system according to a sixteenth embodiment of the present invention;

fig. 25 is a schematic interaction manner diagram of an intelligent home system in a seventeenth embodiment of the present invention.

Description of the reference numerals

110-a massage device; 120-a lighting device; 121-a first lighting device; 122-a second lighting device; 123-a third lighting device; 124-a fourth lighting device; 130-an air supply device; 140-fragrance diffusing equipment; 150-an audio device; 160-a display device; 170-a control unit; 180-a control panel; 190-smart home devices; 21-a massage device; 211-a control unit; 212-an execution unit; 22-a motion intensity sensing unit; 221-a communication module; 23-a lighting unit; 24-a router; 0310-control the massage device; 0312-an execution unit; 0320-a lighting device; 0330-a control unit; 0350-heart rate sensor; 0410-message controlled massage devices; 0412-execution unit; 0420-lighting devices; 0430-a control unit; 0450-camera; 501-massage chair; 5011-acupoint sensing unit; 502-a control unit; 61-a massage device; 611-a control unit; 612-an execution unit; 62-a body fat detection device; 0710-controlling the massage device; 0712-an execution unit; 0720-lighting device; 0730-a control unit; 0750-temperature sensor; 0760-air-conditioning; 81-massage chair; 811-temperature regulating unit; 812-a temperature-raising unit; 813-cooling unit; 814-a control unit; 82-temperature measuring means; 1010-massage chair; 1020-a height detection device; 1030-a massager; 1040-a control unit; 1310-a massage device; 1312-an execution unit; 1320-a lighting device; 1330 — a control unit; 1350-humidity sensors; 1360-humidifier; 1370-a dehumidifier; 1410-a massage device; 1412-an execution unit; 1420-a lighting device; 1430-a control unit; 1450-a respiratory rate sensor; 1510-a massage device; 1512-an execution unit; 1520 — a lighting device; 1530-a control unit; 1550 — pressure sensor; 1700-user interface; 1701-control unit; 1702-control panel; 1703-a display device; 1704-mobile terminal; 1705-indication unit; 1706-a voice device.

Detailed Description

The present application will now be described in further detail with reference to the accompanying drawings. The structure schematic diagram of the intelligent home system is schematically and simply shown in the attached drawings.

[ first embodiment ] to provide a toner

The present embodiment provides an intelligent home system, as shown in fig. 1, including a plurality of intelligent home devices, where the plurality of intelligent home devices are in communication connection with each other, and the communication connection may be in wired communication connection or wireless communication connection, and below, when the plurality of intelligent home devices are disposed in the same or adjacent space, for example, in the same room, the types, functions, and operation principles of the intelligent home devices are exemplarily described.

Massage device

The present embodiment provides a massage apparatus 110, the massage apparatus 110 may be a massage chair or a massager, and the massage chair is taken as an example in the present embodiment and mainly includes: a seat body (not shown), and an actuator unit (not shown). Wherein, the execution unit can execute specific massage action, which can be a massage component assembled on the seat body.

Specifically, the state information of the massage chair mainly includes: mechanical or mechanical parameters such as massage time, massage intensity, massage frequency, massage manipulation, massage speed and the like. Preferably, the massage apparatus 110 further includes a storage unit (not shown) that stores the state information of the massage chair. The massage device 110 further comprises a communication module capable of transmitting the saved or run-time loaded status information, such as a plurality of different status information, to another smart home device.

Considering that the use demands of users for massage apparatuses are diversified, as the use comfort of massage apparatuses is continuously improved, users are likely to derive more demands for massage apparatuses other than massage. Therefore, the massage device 110 provided in the present embodiment can provide a user with sufficient rest when using the massage device, and if necessary, the user can also have a nap or sleep on the massage device 110, and based on this requirement, the operation state of the execution unit is further refined into a plurality of stages from the functional perspective, specifically, the plurality of stages include:

stage A: a calming phase, which is mainly designed to calm the user, and correspondingly, the execution unit provides the user with a relatively mild massage service, such as a massage technique of stretching the back, and performs air bag pressing on the wrist, the moving height of the massager is relatively low, such as 0-20cm, preferably 10cm, while the moving speed of the massage wheel is set to be less than 5cm/s, preferably 3cm/s, or the moving track range of the massage wheel is adjusted, such as the moving range of the massage wheel moving back and forth after reaching a designated position is adjusted to 18-25mm, preferably 21 mm.

In the calming stage, the human body can lie down to the most comfortable position by automatically adjusting the angles of the chair back and the foot model, for example, the foot model can be lifted to 50-70 degrees, preferably 65 degrees, and the backrest can be laid down to 120-180 degrees, preferably 150 degrees; and then controlling the inflation and deflation of the massage air pump at the wrist to control the pressure value of the massage, wherein the pressure value can be set to be different intensity pressure values, or can be configured in a multi-gear mode, for example, the pressure value is divided into 3 gears with different intensity, and each gear corresponds to different pressure values, for example, the pressure value is set to be 30Kpa, 28Kpa and 25 Kpa.

And (B) stage: a relaxation phase, which is set up to mainly relax the user, and correspondingly, a more gentle massage service can be continued for the user. For example, a massage technique of stretching the back can be used to perform air bag pressing on the wrist region, and the moving height of the massager is set to be relatively high, for example, 20 to 40cm, preferably 40 cm. Meanwhile, the pressure value and the maximum pressure holding time of the air bags at different positions can be adjusted, and the air bags (wrists, footsteps and shoulders) at different positions can be opened and closed to form dynamic air pressure massage; meanwhile, the moving speed of the massage ball, the up-and-down moving speed of the massager, the beating times of the massage ball, the pressing depth of the massage ball and other factors are dynamically combined to achieve the optimal control parameters for relaxation experience matching.

And C stage: the induction sleep stage is mainly used for inducing drowsiness of the user, and correspondingly, a relatively mild massage service can be continued for the user in the stage. For example, the sleep induction stage can adopt a circular massage path with clockwise left and counterclockwise right sides for massage, and the moving height of the massager is preferably 10 cm.

In some embodiments, a temperature sensing function may be added during the sleep induction stage, for example, the temperature of the leather sheath of the back may be adjusted to a specific comfortable sensible temperature, for example, 45 ℃, and the optimal control parameters may be matched for the sleep induction state by using a combination of a specific massage technique, an air bag massage, a massage ball rolling massage, and a massage ball pressing, beating and massaging, and combining strong and weak organic combination.

And D stage: and a rest stage, wherein the main purpose of the stage is to enable the user to be in a sleep state, and correspondingly, a relatively mild massage service can be continued or a massage action can be stopped for the user. For example, the rest stage can be massaged by adopting a square massage path with a left side anticlockwise and a right side clockwise, the moving height of the massager is set to be relatively high, for example, 20-40cm, preferably 40cm, and the moving speed is relatively slow, for example, 0-2cm/s, preferably 1 cm/s.

And E stage: a drowsiness maintaining phase, which is set for the main purpose of continuing drowsiness of the user, and in which a more gentle massage service can be continued or a massage action can be stopped for the user. For example, the drowsiness maintaining stage may be performed by pressing and closing the air bag at the wrist, and instead, by performing a squeezing massage of footsteps.

And F stage: the main purpose of the wake-up stage is to wake up the user, and correspondingly, the execution unit can provide the user with massage services with higher intensity, such as massage services with higher intensity, higher massage speed and more massage times. For example, the wake-up phase may perform a squeeze massage to the wrist and shoulder of the user at the same time to perform the wake-up.

The state information of the massage chair may be the mechanical or mechanical parameters described above, or may be a state pattern stored in the storage unit formed by a combination of several parameters (not limited to the mechanical or mechanical parameters described above) or an operation pattern in which at least one specific parameter changes with time. The combination manner between the action modes corresponding to each stage may be different according to the use requirements of the user, for example, when the user uses the massage device 110 during noon break, the user usually needs to be put into work or study again after the noon break, and the wake-up stage may be included; when the user uses the massage device 110 before going to bed at night, the user may go to bed after using the massage device 110, so the waking stage can be optionally omitted from the massage process of the massage chair.

Herein, the term "action mode" means a change mode of at least one parameter of a device, equipment or system, such as mechanical and electrical parameters, according to time change within a specified time range, and the "action mode" is a dynamic change process, and is distinguished from a "state mode" formed by stable operation of a combination of several parameters.

In addition, in the a-E phases, although a relatively mild massage service can be provided for the user, the specific operation parameter information of the execution unit in each phase may be different, and the operation parameter information of each phase and the differential setting of the phases included in the same operation state may be set by the manufacturer at the time of factory shipment or by the user. Operating parameter information that may vary in different operating modes may include, but is not limited to: massage path, direction, vertical height (for example, 0-50cm) of massager movement, massage ball movement width (for example, 30-180mm), massage finger pressure intensity (for example, 0-100mm of front-back direction movement amount), kneading speed (for example, 4-25 times per minute), operation range size (for example, 0-30mm in width direction, 0-25mm in vertical direction, 0-30mm in front-back direction), movement speed (for example, 1-8cm/s in vertical direction), tapping speed (for example, 300 times per minute), tapping force, number of times of back and forth, whether to detect shoulder position, air bag operation, air bag pressure value, air bag pressure release time, and position for performing pressing, tapping, finger pressure and other operations. The above parameters may be set to specific values, such as speed values and pressure values, or to specific ranges, such as speed ranges and pressure ranges, or to a plurality of shift positions, such as 1-shift speed and 2-shift pressure. By means of the optimized design of the parameters, the massage target of each stage can be effectively matched, and a specific action mode can be formed in a combined mode.

Lighting device

In the present embodiment, the lighting apparatus 120 is described as an example of a combination of a plurality of lighting apparatuses, and the lighting apparatus 120 includes at least one, some, or all of the first lighting apparatus 121, the second lighting apparatus 122, the third lighting apparatus 123, and the fourth lighting apparatus 124.

Wherein, the color temperature, the color tone, the light emitting color, the brightness, the luminous flux or the illuminance of the first lighting device 121, the second lighting device 122, the third lighting device 123 and the fourth lighting device 124 can be set and adjusted according to the use requirement of the user, the first lighting device 121, the second lighting device 122, the third lighting device 123 and the fourth lighting device 124 can be composed of a single lamp or a combination of a plurality of lamps, from the setting position, in the height direction of the same or adjacent space, the first lighting device 121, the second lighting device 122 and the third lighting device 123 are arranged from top to bottom in sequence, and relative to the massage device 110, the second lighting device 122 can be in a 3 pi solid angle (preferably 2 pi) with the center of the upper edge line of the chair back as the vertex and the normal of the chair back plane forwards in the massage process of the massage chair, and preferably, the second lighting device 122 is arranged opposite to the massage device 110; the fourth illumination device 124 may be directed rearward from the normal to the plane of the back of the chair during massage of the massage chair in a 3 pi solid angle (preferably 2 pi) with the center of the upper edge line of the back of the chair as the apex.

Specifically, the first lighting device 121 is configured to provide a main lighting condition for the room, and may be disposed on a ceiling of the room and/or a position of four walls of the room close to the ceiling, and has a relatively large illumination range, so that the emitted light can be more fully utilized by the room, preferably, the first lighting device 121 is composed of a plurality of lamps, wherein the plurality of lamps can be gradually turned off/on from far to near or from near to far according to a distance in space relative to a position where the massage apparatus 110 is located, and preferably, the color temperature of the first lighting device 121 can be adjusted to at least two levels of a cold color system color temperature (for example, the color temperature is 6000K 5000-.

In particular, the second lighting device 122 is arranged in front of the use side of the massage apparatus 110, at a distance from the massage apparatus 110, preferably, the spacing distance S is greater than or equal to 0.5 m, and preferably, the second illumination device 122 is positioned substantially flush with the line of sight of the user using the massage apparatus 110 in the height direction, and preferably, the light of the second illumination device 122 is soft, specifically, the color temperature is low, and particularly, the color temperature can be 2700-, the illuminance is low, and preferably, the second illumination device 122 emits light by blinking at a constant frequency, wherein the second illumination device 122 has a low flicker frequency, approximately 3-90 seconds, preferably 10-60 seconds, in order to create a dim lighting atmosphere, the light emitting manner of the second lighting device 122 is determined by the dimming curve.

In particular, the third lighting means 123 is arranged in the resting area of the user, for example in the vicinity of the bed, which is in particular arranged at the periphery of the bed and arranged circumferentially or partially circumferentially along the periphery of the bed, in the example of the third lighting means 123 being arranged in the vicinity of the bed, more in particular on the ground adjacent to the peripheral edge of the bed, for showing the user the particular position of the bed.

In particular, the fourth lighting device 124 is disposed at the rear side of the massage apparatus 110 to provide a weak lighting environment for the space, and preferably, the fourth lighting device 124 may be a small night light.

Air supply device

The present embodiment provides an air supply device 130, which can provide air supply service for a user using a massage device 110, specifically, it may be an electric fan or an air conditioner with a communication interface, the wind power of which is adjustable, and the adjusting gear of which is at least two: the wind power of the first gear is smaller than that of the second gear, and particularly, from the perspective of the user sense, the first gear can be defined as blowing breeze, and the second gear can be defined as blowing fresh wind.

Fragrance spreading equipment

The present embodiment provides a fragrance expansion device 140 capable of providing a fragrance atmosphere for a user using the massage device 110, and specifically, the fragrance expansion device 140 may be an aromatherapy machine having a communication interface, the fragrance provided by the fragrance expansion device is adjustable, and the fragrance at least includes a tranquil taste and a fresh taste, wherein the tranquil taste may be lavender taste specifically, and the fresh taste may be a grapefruit taste or a mint taste.

Sound equipment

The present embodiment provides an audio device 150 capable of providing a musical atmosphere to a user using the massage device 110, and specifically, the audio device 150 may be a record player having a communication interface, MP3, earphones, a headset or other devices having a music playing function, and the audio device 150 may provide at least two types of music, namely, soothing music and fast music.

Display device

The present embodiment provides a display device 160, which is capable of displaying an operating state and/or operating parameter information of all or part of current smart home devices, and a user can obtain an operating state of each smart home device through the display device 160, and as an optimal selection, the display device 160 is further capable of being in communication connection with a control panel 180 later, so that the user can edit the operating state and the operating parameter information of each smart home device again.

Control unit

The present embodiment provides a control unit 170, which is connected to the massage device 110, the illumination device 120, the air supply device 130, the fragrance diffusion device 140, and the audio device 150 in a communication manner, and can control the operation of the massage device 110, the illumination device 120, the air supply device 130, the fragrance diffusion device 140, and the audio device 150, and which may be integrated with any one of the massage device 110, the illumination device 120, the air supply device 130, the fragrance diffusion device 140, and the audio device 150, or may be provided independently.

Preferably, the control unit 170 further comprises a storage medium (not shown) storing instructions for performing the steps of:

acquiring a plurality of different state information of intelligent household equipment;

determining an action mode of the other intelligent household equipment corresponding to the acquired state information;

and commanding the other smart home devices to execute the determined action mode.

In particular, the storage medium may be a memory capable of storing a data packet containing the instruction information, and preferably, the information stored in the memory is editable, so that the user can conveniently re-edit the linkage mode between different smart home devices based on different operation logics.

Control panel

The present embodiment provides a control panel 180, which is at least in communication connection with a display device 160 and a control unit 170, and a user may control the control unit 170 to send an instruction to each smart home device from the control panel 180, specifically, the control panel 180 may be integrated into one of the smart home devices, for example, the massage device 110, or may be independently configured, and when the control panel is independently configured, the control panel 180 may also be an application installed in a mobile terminal, such as a mobile phone or a tablet computer.

Communication connection

In this embodiment, the communication connection between the control unit 170 and the massage device 110, the illumination device 120, the air supply device 130, the fragrance expansion device 140, the sound device 150, and the control panel 180 may be a wired communication connection or a wireless communication connection, when the connection is a wired communication connection, each device and the control unit 170 may be connected through an RS232 interface or other serial communication methods, and when the connection is a wireless communication connection, the communication link between the devices may be established through infrared communication, bluetooth communication connection, or wireless technologies such as WiFi, 4G, and 5G.

Principle of operation

The current massage apparatus 110 provides a plurality of stages (a-F) to meet the user's needs for rest or nap, the differences in the multiple stages are limited to the information on the operation parameters of the massage device 110, however, since the differences in the information mainly bring about the changes in the tactile sensation of the body to the user, the effects of relaxation, sleep aid and arousal are limited, considering that stimulation to other senses of the human body (such as hearing, vision or touch) also helps rest or rest, therefore, in the present embodiment, the operation modes of the illumination device 120, the air blowing device 130, the fragrance diffusing device 140, and the audio device 150 are matched with a plurality of different pieces of status information of the massage device 110, in order to enable a user to obtain better massage experience, the control method of the smart home system provided by the embodiment includes the following steps:

S1: acquiring a plurality of different state information of intelligent household equipment;

s2: determining an action mode of the other intelligent household equipment corresponding to the acquired state information;

s3: the determined action pattern is executed.

The smart home devices in step S1 are exemplified as the massage devices 110, wherein step S3 includes operating the smart home devices as the state information sources with predetermined information, the predetermined information being any one or more of massage strength, massage part, massage frequency, temperature, color temperature, hue, illuminance, height position, illumination range, air volume, sound volume, fragrance, and display content, for example, the massage devices 110 can be linked with the operation of any one of the illumination devices 120, the air supply device 130, the fragrance diffusion device 140, and the audio device 150, and specifically, other smart home devices can enter a corresponding mode/state operation according to the state information of the massage devices 110.

In this embodiment, the smart home system can determine the action mode of another smart home device corresponding to the state information by acquiring a plurality of different pieces of state information of one of the smart home devices, that is, by establishing mode associations between different pieces of smart home devices, and by establishing associations between a plurality of different pieces of state information of one piece of smart home device and the action mode of another piece of smart home device, thereby implementing different types of parameter associations between different pieces of smart home devices, implementing interconnection and interaction between different pieces of smart home devices, and bringing brand new experience and feeling to the user.

For example, a massage chair as one of the smart home devices has difficulty in establishing a correlation between parameters such as massage strength, massage part and frequency and optical parameters as illumination of another smart home device by relying on conversion between the parameters; according to the matching between the plurality of different state information of one intelligent household device and the action mode of another intelligent household device, for example, the mechanical parameters such as massage strength, massage part, massage times and frequency of a massage chair or other physical parameters such as temperature setting of a temperature-sensitive heater are utilized, according to the massage use purpose of a user, such as sleep aiding, the relevance between the intelligent household device and the lighting sleep mode is further established, the lighting device is correspondingly indicated to read the relevant optical adjustment parameters of the sleep mode, the relevance of the specific parameters of the intelligent household device is established among different intelligent household devices, the state information of different types is convenient to be interconnected among different intelligent household devices, and therefore the interconnection interaction among the intelligent household devices brings brand new experience and feeling to the user.

Through the mode, the problem that each intelligent household device is controlled to be complex in operation and the intelligent household devices cannot be associated and act coordinately is solved, for example, a user wants to help sleep and uses a massage chair to operate in a working mode, but the lighting device cannot be matched with the working mode of the massage chair, the association problem caused by the operation in a daily mode is still solved, the smart collocation and combination between different intelligent household devices can be realized, a system platform is provided, more diversified and practical application scenes are built, the service provided by the intelligent household system is more intelligent, diversified and humanized, and more brand-new comprehensive experience and feeling are brought to the user.

First, taking another smart home device in step S2 as the lighting device 120 as an example, the predetermined information at least includes one or more of massage strength, massage part, massage frequency, temperature, color temperature, hue, brightness, illuminance, luminous flux, height position, and lighting range. In this embodiment, the predetermined information may be various, and the type of the predetermined information is known, and the predetermined information covers various different smart home devices, that is, in step S2, one or more additional smart home devices may be provided, and may be linked with the smart home device in step S1, so that the linkage relationship between different smart home devices is more compact and various.

The user can select any stage from the six stages a to F to construct the action mode of the massage device 110 according to the use requirement, taking the massage device 110 used by the user before going to bed at night as an example, and sequentially select A, B, C, F four stages to construct the dynamic mode of the massage device 110, where the status information of the massage device 110 at each stage is:

first state information corresponding to a phase a (corresponding to a first phase in the present embodiment);

second state information corresponding to a B phase (corresponding to a second phase in the present embodiment);

Third state information corresponding to the C stage (corresponding to the third stage in the present embodiment); and

fourth state information corresponding to the F stage (corresponding to the fourth stage in the present embodiment).

In the embodiment, the A, B, C stages are consecutive and consecutive, and are separated from the C stage in time sequence, and the interval time is used for the user to finish rest or sleep. In some embodiments, the F phase and the C phase may be consecutive and consecutive in time. At least the first state information and the second state information of the massage apparatus 110 are acquired in step S1, and at least the first motion pattern corresponding to the first state information and the second motion pattern corresponding to the second state information are determined in step S2.

The operation of the massage device 110 and the illumination device 120 in each stage will be described in sequence in time order. The operation modes of the massage device 110 and the illumination device 120 in each stage, such as the respective status modes or the operation modes, may be predetermined or may be changed in real time, which is not limited in this embodiment.

[ stage A ]

In this embodiment, the phase a is a calming phase, and the devices in the smart home system coordinate with each other by using communication interaction, and the operation objectives of the devices are unified to help the user recover the calming state.

Taking the massage device 110 and the lighting device 120 as examples, in the phase a (the first phase), the massage device 110 sends first state information to the smart home system or the lighting device 120, and the lighting device 120 determines a first state mode or a first action mode of the lighting device 120 according to the first state information, and loads the first state mode or the first action mode into the smart home system for execution.

The first operation mode includes controlling the output of the first lighting device so that the illuminance is maintained at a predetermined value or less, and is maintained at a predetermined cold color (green, cyan, blue, indigo, violet), a predetermined higher color temperature (4000K or more), or changed between the predetermined color temperature range and different color tones at the end of the first period.

In some embodiments, the first stage lighting apparatus 120 may also correspondingly load the first state mode, for example, to keep the illuminance below a first prescribed value all the time and maintain a certain cool hue (green, cyan, blue, indigo, violet) or a certain higher color temperature (above 4000K). In the first stage (stage a), only the first lighting device 121 may be turned on and set to a low illumination, a cool tone (or a high color temperature) to create an atmosphere that is calm to the user.

At the end of the a-phase, the first lighting device 121 is turned on and set to low illumination, cool tone (or high color temperature); the second lighting device 122, the third lighting device 123, and the fourth lighting device 124 are all off.

[ stage B ]

The phase B (second phase) is successive to the phase A, and after the phase A is finished, the initial period of the phase B is entered. At this time, the first lighting device 121 is turned on and is initially at a low illumination level, a cool tone (or a high color temperature); the second lighting device 122, the third lighting device 123, and the fourth lighting device 124 are all off.

In the present embodiment, before the B-phase starts, the second operation mode of the lighting apparatus corresponding to the second state information is determined based on the second state information. In some embodiments, the determination of the second mode of action may also occur before the start of the B-phase or even the a-phase.

The lighting device 120 performs the second mode of action. Specifically, the second operation mode includes controlling the output of the first lighting device 121 so as to reduce the color temperature or change the hue to a warm hue (red, orange, yellow, brown) while maintaining the illuminance in a first range equal to or lower than a first predetermined value in the initial period of the second phase. In the B-phase, only the first lighting device 121 may be turned on and set to low illuminance, warm tone (or low color temperature), the color temperature of the first lighting device 121 may be turned down or turned to warm tone to create a warm atmosphere, and when the second state information is acquired, a corresponding second operation mode is determined based on the acquired second state information (or the first state information and the second state information are integrated), and a second operation mode is performed in which a first range in which the illuminance value is equal to or less than the first predetermined value is maintained and is changed from cold tone to warm tone, or a higher color temperature (equal to or more than 4000K) is changed to a lower color temperature range (equal to or less than 4000K).

Further, the change from the A stage to the B stage is mainly used for adjusting the emotion of a person, so that the action mode of the massage chair can not be changed, and the first state information and the second state information are different in sequence. Of course, in other embodiments, the massage chair may be configured in different action modes.

Since the human eyes are sensitive to the change of the illumination information, the illumination information is the same, so that the difference between different action modes is small, that is, by reducing the variables, the action modes of the lighting device 120 are smoothly switched; the differentiation of the color temperature or the hue information can make the created lighting atmosphere different in different action modes, specifically, when the color temperature is higher or the hue is colder, the lighting atmosphere is usually cool and fast, and the atmosphere can be matched with the specific state information of the massage device 110 in the massage scene that the user wants to feel light and refreshing; when the color temperature is low or the hue is warmer, the lighting atmosphere is usually warm, which may be collocated with specific status information of the massage device at the time of the massage scene where the user wishes to aid sleep. Different color temperatures or different hue information correspond to different state information or different stages of the massage equipment 110, so that a lighting environment which is suitable for the use purpose of the user and matched with the massage atmosphere can be created, and the user can obtain more comfortable use experience under the condition of interconnection and interaction of different intelligent household equipment.

It should be noted that, in the present document, the "prescribed value" in the terms "first prescribed value" and "second prescribed value" may be a point value or a specific numerical range, and is not strictly limited to the form of a point value. For example, in some embodiments of the present invention, the first predetermined value may be an illuminance value or an illuminance range such as 90lx, 120lx, 150lx, 180lx, or 90-150lx, 100-. In some embodiments of the present invention, the second predetermined value may be an illuminance value or an illuminance range such as 20lx, 30lx, 40lx, 50lx, 20-50lx, and correspondingly, when the second predetermined value is 50lx, the second range or the third range higher than the second predetermined value may be an illuminance range such as 200 and 700lx, and for example, the illuminance may be gradually increased to 50lux or more or 200lux or more in the F stage.

And in the stage B, the whole operation target of the intelligent home system is to create a relaxing environment, so that the user in the environment is relaxed. In order to achieve the aim, the intelligent home systems are mutually coordinated by means of communication interaction and operate in the same or a coordinated corresponding mode. For the lighting device 120, in order to create a more relaxed environment, switching of the lighting state is performed in such a manner that the color temperature is gradually lowered or switching to the warm tone is gradually performed.

[ stage C ]

The C-phase is a sleep-inducing phase, and in this embodiment, the C-phase and the B-phase are consecutive, and in the end period of the B-phase, the first lighting device 121 is switched to a warm tone, or the color temperature is reduced to 4000K or less, and the second lighting device 122, the third lighting device 123, and the fourth lighting device 124 are all in an off state.

Specifically, the lighting device for the third operation mode includes the second lighting device 122 disposed in the same space as the first lighting device 121 and having a height lower than that of the first lighting device 121. The third action mode includes, at the start period of the third stage (C stage), turning off the first lighting device 121, turning on the second lighting device 122, and setting the illuminance of the second lighting device 122 in the first range. In this embodiment, the illumination information and/or the height position information of the lighting device 120 are changed according to the status information of the massage device, wherein the illumination information and the height position information of the lighting device are changed, so that a wider variety of lighting environments including the matching of the high and low positions of the lighting device 120 can be created. The user using the massage apparatus 110 is usually in a lying or semi-lying posture with the line of sight biased upward, and by turning off the first lighting device 121 located at the higher position and then turning on the second lighting device 122 located at the lower position in the third action mode, the user can definitely feel the change of the illumination environment, and at the same time, the ambient illumination is further reduced, which is beneficial to guiding the user to enter a sleep state.

With the arrangement, more choices can be provided for the specific association mode of the massage device and the lighting device, so that a user can be provided with more various using environment experiences and the user can be helped to enter a specific state.

Since the C-stage is a sleep-inducing stage, in order to induce a user to fall asleep, it is first conceivable to turn down the entire illuminance of the lighting device 120 in the space, that is, to generate an atmosphere that is likely to fall asleep by continuing to the second operation mode, and further, it is possible to reduce the entire illuminance of the space by changing the height position of the lighting device 120, specifically, turning off the first lighting device 121.

Preferably, the third operation mode further includes blinking the illumination device 120 provided in correspondence with the massage device 110 at a predetermined dimming curve. For example, in the present embodiment, the second lighting device 122 may be configured to emit flickering light.

The second illumination device 122 is typically disposed in the visual range of the human eye, and may be in a 3 pi solid angle (considering the case that the human face is deviated to one side) with the normal of the plane of the chair back facing forward and the center of the upper edge line of the chair back as the vertex during the massage at this stage, preferably in a 2 pi solid angle, and more preferably, the second illumination device 122 is disposed opposite to the massage device 110.

Wherein the second lighting device 122 has a low flashing frequency, which is approximately 3-90 seconds in one cycle, preferably 10-60 seconds in one cycle. The second lighting device 122 is arranged in such a way that the user can clearly perceive the change in the light intensity directly by visual means of the lighting device 122.

Meanwhile, the user is gradually guided to enter the sleep state by gradually reducing the brightness peak value of the second lighting device 122 during the flashing process, further reducing the ambient illumination, and/or gradually lengthening the flashing period of the second lighting device 122. In other embodiments, the second device 122 may also be replaced by a third lighting device 123 which is lower than the first device 121 in spatial height but outside the visual range of human eyes, and the user may be guided to sleep by the change of brightness of the space caused by the change of brightness of the third device 123.

The lighting device 120 corresponding to the massage device 110 is provided, and the lighting device 120 is lighted in a blinking manner, which can create a flickering lighting atmosphere. The corresponding arrangement may be that the massage device 110 and the illumination device 120 have substantially the same height, or the illumination device 120 may be arranged within the range that is accessible to the user's sight in the massage device 110, without any particular limitation, as long as the flicker emitted by the illumination device 120 is perceived by the user. In this technical solution, because the flickering of the lighting device 120 can be sensed by the user in the massage device 110, and the flickering has an effect of causing drowsiness, the lighting device 120 and the massage device 110 are linked in this way, so that the drowsiness of the user can be guided and promoted while the massage is performed, so as to facilitate the user to enter a sleep state as soon as possible.

Note that, in the present embodiment, the first lighting device 121 is turned off and the second lighting device 122 is turned on at the start of the C phase. In some other embodiments, the illumination of the lighting devices at different positions may be changed, for example, the illumination of the first lighting device 121 is decreased, and the illumination of the second lighting device 122 is increased, which should be regarded as equivalent to the turning-off/on manner.

At the end of the period of the C-phase, the first lighting device 121 is turned off, the second lighting device 122 is in the form of a blinking light, inducing the user to enter a sleep state, and the third lighting device 123 and the fourth lighting device 124 are both turned off.

[ stage F ]

The F stage may be continued to the C stage or may be separated from the C stage by a specific time. For example, in some embodiments, the interval duration between the F-phase and C-phase may be set to a prescribed time interval, such as a reasonable sleep cycle duration, to wake up the user in a manner consistent with the human rhythm.

In the present embodiment, fourth state information in a fourth stage (stage F in the present embodiment) that is spaced apart from the third stage (stage C in the present embodiment) and is later than the third stage is further acquired in step S1, and a fourth operation mode corresponding to the fourth state information is determined in step S2, the fourth operation mode including turning off the second lighting device 122, turning on the first lighting device 121, and placing the illuminance of the first lighting device 121 in a second range higher than the second predetermined value in the initial period of the fourth stage.

And in the stage F, each device in the intelligent home system utilizes a communication interaction coordination working mode to build an awakening scene with a uniform target. Specifically, in order to create a wake-up scene, the lighting device 120 as a provider of light environment creates a wake-up light environment by turning off the second lighting device 122 with a lower position, turning on the first lighting device 121 with a higher position, and gradually increasing the illuminance and the color temperature, for example, in CN108980682A, by way of synchronous dimming and color modulation in which the brightness of the lighting light gradually increases as the color temperature gradually increases, simulating an environmental state in which the position of the light source gradually increases when the sun rises, so as to match the rhythm of the human body. Accordingly, the massage device 110 may wake up the haptic nerves of the user from the tactile aspect by means of increasing force, frequency, etc. In some embodiments, the change state of the natural environment when getting up in the morning can be further simulated by using an air supply device, a fragrance device and the like, so that the user can be awakened in a more natural and healthy manner. In the process, the operation purposes of all the devices in the intelligent home system are mutually unified in the same space. By selecting the operation purpose of each device in the intelligent home system in the same space to be unified, various stimuli such as vision, auditory sense, touch sense and the like can be coordinately applied to the user in the limited space by taking the mode unification as a carrier, so that the operation coordination of the intelligent home system and the effectiveness of space utilization are improved.

In addition, the user using the massage apparatus is usually in a lying or semi-lying posture, the line of sight of the user is inclined upwards, after the third action mode, the user may go to sleep in the lying or semi-lying posture in the massage apparatus 110, and after the sleep and rest, the technical scheme of the present invention makes the user clearly feel the change and stimulation of the illumination environment by turning off the second illumination device 122 located at the lower position and then turning on the first illumination device 121 located at the higher position, and at the same time, the ambient illumination is raised, so as to facilitate guiding the user to get away from the sleep state and further wake. Therefore, according to this embodiment, more choices can be provided for the specific association manner of the massage device 110 and the illumination device 120, a more varied usage environment experience can be provided for the user, and the user can be helped to enter a specific state.

Preferably, the lighting apparatus 120 includes a first lighting device 121 and a second lighting device 122, the first lighting device 121 and the second lighting device 122 are disposed in the same space, and the second lighting device 121 is disposed at a lower position than the first lighting device 122, and the plurality of different status information acquired in step S1 includes fifth status information of a fifth stage and sixth status information of a sixth stage, wherein the fifth stage and the sixth stage are spaced apart from each other in time series, and the fifth stage precedes the sixth stage; determining a fifth action mode corresponding to the fifth state information and a sixth action mode corresponding to the sixth stage in step S2; in step S3, the sixth operation mode includes, in the sixth stage, turning off the second illumination device 121, turning on the first illumination device 122, and setting the illuminance of the first illumination device 122 in a third range higher than the second predetermined value.

Since the user using the massage apparatus is usually in a lying or semi-lying posture with his/her line of sight biased upward, by turning off the second lighting device 121 located at the lower position and then turning on the first lighting device 122 located at the higher position in the sixth operation mode, the user can be made to definitely feel the change and stimulation of the illumination environment, which plays a role in preventing the user from entering a sleep state or waking up the user from a rest state, and is advantageous for guiding and reminding the user to smoothly enter the next predetermined working state. Therefore, according to the present disclosure, more choices are provided for the specific association manner of the massage device 110 and the illumination device 120, so as to provide a user with more various experience of the use environment and help the user enter a specific state. Meanwhile, because the lighting devices 120 at different height positions are turned on and off, the lighting devices at different positions can be adjusted in time sequence in match with the working mode of the massage device 110, so that each lighting device 120 can play a role in indicating each different position in the space, and the switching of the user scene can be guided and implied along with the time sequence switching of the lighting devices 120, so that the user can smoothly enter the next scene mode in a psychological level.

Preferably, the plurality of smart home devices are disposed in the same or adjacent space, and each of the other smart home devices in step S2 operates at the predetermined position of the smart home device in step S1.

The "pertinence" in the "acting on the predetermined position of the smart home device at step S1" means that the action of another smart home device can produce an effect on at least one physical parameter of the space at the predetermined position. For example, in the present embodiment, the operation of each of the other smart home devices may generate an effect on the space in the massage chair, so that the user sitting on the massage chair can sense the effect generated by each of the other smart home devices, for example, the change in the illuminance or color tone by the lighting device 120, the wind force of the wind blown by the air blowing device 130, the sound of the audio device 150, the information displayed by the display device 160, and the like. Specifically, when the massage device 110, the illumination device 120, the air supply device 130, the fragrance diffusion device 140, and the sound device 150 are disposed in the same space (room), the devices can stimulate the senses of the user from different angles, so that the space is saved, the resources are fully utilized, and the user obtains more comprehensive use experience. Particularly, since the lighting effect of the lighting device 120 is greatly affected by the lighting angle and the lighting range, when the lighting device is configured in the same or an adjacent space, the lighting atmosphere created can effectively cover other smart home devices, and it is ensured that the user can experience the interconnection interaction between different smart home devices, thereby ensuring the good experience of the user.

Preferably, the state information of the massage apparatus 110 further includes:

seventh state information corresponding to the D stage; and

eighth state information corresponding to the E-phase.

Further, eighth state information continuous with the seventh state information is acquired in step S1, an eighth action mode corresponding to the eighth state information is determined in step S2, the eighth action mode is set to light the lighting device 120 located at a different position from the smart home device in step S1, in the E stage, the main purpose is to maintain the drowsiness of the user, considering that the user is going to sleep, therefore, the E stage is also set to guide the user to go to the bed, when the eighth state information is acquired, the third lighting device 123 is turned on to show the position of the bed to the user, and the purpose of guiding the user to the bed for deep sleep is achieved while maintaining the drowsiness of the user.

Similarly to the lighting device 120, the air supply device 130, the fragrance diffusion device 140, and the sound device 150 can be adapted to different operation patterns according to the difference in the state information of the massage device 110, and specifically, the relationship between the operation pattern of each device and the state information (stages a to F) of the massage device 110 is shown in the following table:

TABLE 1

When the massage device 110 is in the a stage, the other devices acquire the first state information of the massage device 110 and act accordingly, specifically, the first illumination device 121 of the illumination device 120 is turned on and has a higher color temperature or a cool color system; the air supply device 130 blows breeze; the fragrance diffusing device 140 releases the soothing scent; the audio device 150 plays soothing music and the cooperation between the devices creates an atmosphere that helps the user enter a calm state.

When the massage apparatus 110 is in the B-stage, it is different from the a-stage in that the first lighting device 121 of the lighting apparatus 120 reduces the color temperature or turns the color tone to a warm color, and the reduction of the color temperature or the turning of the color tone to the warm color is advantageous to create a warm ambient atmosphere, contributing to the relaxation of the user.

When the massage apparatus 110 is in the C-phase, it is different from the B-phase in that the first lighting device 121 is turned off, the second lighting device 122 is turned on, and operates in a blinking manner to create a flickering lighting environment, which helps the user to bore drowsiness.

When the massage device 110 is in the D stage, it is distinguished from the C stage in that the second illumination means 122 is turned off, the fourth illumination means 124 is turned on, and weak light is emitted, which is helpful for the user to have a nap and provides the user with the most basic illumination environment in which surroundings can be distinguished; the air supply device 130 stops supplying air, and the audio device 150 turns off or reduces the volume.

When the massage device 110 is in the E-phase, it is different from the D-phase in that the fourth lighting device 124 is turned off and the third lighting device 123 is turned on to show the user where the bed is located, directing the user to go to the bed to enter deep sleep.

When the massage device 110 is in the F phase, it is different from the E phase in that the fourth lighting device 124 is turned off, the first lighting device 121 is turned on, the color temperature is high or the color tone is a cold color system, the air blowing device 130 starts to blow air and blows breeze and fresh air in sequence, the audio device 150 plays music which is light and fast, preferably, the volume of the music is gradually increased to avoid the user being frightened, and the fragrance-spreading device 140 releases a fresh taste to help the user to wake up.

It should be noted that, a user may select any number of stages from the a-F stages according to a use requirement to construct an action mode of the smart home system, and store the constructed action mode in the storage unit of the massage device 110 for subsequent use, the display device 160 may display current state information of each smart home device for the user to refer to, the user may edit and store the action mode through the control panel 180, and as a preference, the user may also send an instruction to the control panel 180 through functions such as voice recognition.

In some embodiments of the invention, the determined mode of operation of the lighting device is to flash the lighting device with a defined dimming curve or to vary the color temperature or hue of the lighting device with a defined dimming curve. The lighting device performing the determined action pattern may be a first lighting means 121 above the massage device 110, for example a light strip or a ceiling light above the massage device 110; the second lighting device 122 may also be in front of the massage apparatus 110, such as a desk lamp in front of the user sitting in the massage chair; it may also be a fourth lighting device 124 behind the massage device 110, such as a small night light, a desk lamp, a light strip, etc. for providing auxiliary lighting, or any other lighting device that can generate a fluctuation in illuminance/color temperature (or hue) for the lighting environment where the user is located. The determined operation mode of the lighting device may be a combination of a blinking operation of the lighting device and a change in color temperature (or hue), and the technical solutions of the above combinations are also included in the scope of the present invention without departing from the gist of the present invention.

It should be noted that the operation mode of the blinking illumination device and the operation mode of changing the color temperature (or the color tone) are not limited to the variation form of the illumination parameters other than the illuminance and the color temperature, for example, in some embodiments, the illumination parameters changed in the operation mode of the illumination device 110 may be combined with the variation of the illumination parameters of any other suitable type, such as the illumination range, the blinking frequency, and the like.

It should be noted that, in each stage, the operation state of each smart home device is only an example, and is not limited to the embodiment, for example, the correspondence between the on and off of each lighting apparatus of the lighting apparatus 120 and each stage is not absolute, specifically, in stage F, the fourth lighting apparatus 124 may also be kept in the on state, which does not negatively affect the waking of the user; for example, the air supply device 130, the fragrance diffusion device 140, and the audio device 150 can output more contents to provide more diversified air volume, fragrance, and music types to the user, and the technical solution provided by the present embodiment is only a preferred technical solution given for the purposes of energy conservation, workflow optimization, and understanding convenience for those skilled in the art.

The purpose of the preferred technical scheme is to illustrate that the intelligent home system provided by the embodiment makes full use of the hardware basis provided by the internet of things, brings good use experience for the user through diversified cooperation among a plurality of intelligent home devices, also meets diversified requirements of the user, and especially provides a brand new thought for the use of the intelligent devices and the construction of the intelligent home system.

[ second embodiment ] to provide a medicine for treating diabetes

As shown in fig. 3, the present embodiment provides an intelligent home system, which includes a massage device 21 and a exercise intensity sensing unit 22 communicatively connected to the massage device 21, where the exercise intensity sensing unit 22 is capable of detecting exercise intensity of a user on the same day and transmitting the exercise intensity information to the massage device 21, and the massage device 21 is capable of adjusting an action mode according to the received exercise intensity information of the user.

Further, the massage apparatus 21 has a control unit 211 and an execution unit 212, wherein the execution unit 212 is capable of performing a massage action, and the control unit 211 stores state information of the massage apparatus 21 and is capable of controlling the operation of the execution unit 212, wherein the state information related to the switching of the action mode may include massage part information, massage force information, massage mode information, and the like.

Further, the exercise intensity sensing unit 22 may be a sports apparatus, a portable or wearable device, and may be composed of one or more combinations of a timer, a gravity sensor, a speed sensor, a displacement sensor, a pressure sensor, a heart rate sensor and a blood pressure sensor, and in the following, taking the exercise intensity sensing unit 22 as a treadmill (not shown) as an example, the exercise intensity sensing unit 22 may include: a timer (not shown) for recording the exercise time of the user; a gravity sensor (not shown) for measuring the weight of the user; a speed sensor (not shown) for measuring a running speed of the user; a heart rate sensor (not shown) for measuring a heart rate of the user; the exercise intensity sensing unit 22 is connected to the control unit 211, and transmits exercise intensity information such as exercise time information, weight information, running speed information, and heart rate information of the user to the control unit 211.

Further, the control unit 211 can analyze the obtained exercise intensity information to determine the exercise intensity of the user, preferably, the control unit 211 can divide the exercise intensity of the user into several levels (e.g., high intensity, medium intensity, and low intensity), and match the corresponding action pattern according to the exercise intensity level, for example, when the control unit 211 determines that the exercise intensity of the user is high intensity, a large amount of lactic acid is easily generated by muscles of the human body due to the high intensity exercise, and the accumulation of lactic acid makes the muscles easily generate soreness, a more drastic action pattern, for example, an action pattern with a large massage force, can be matched for the user, and thus, the muscle can be stimulated by massage to accelerate the metabolism of lactic acid, so as to accelerate the elimination of soreness of the muscles.

Preferably, the control unit 211 can match the corresponding motion pattern according to the specific exercise behavior of the user, for example, when the control unit 211 acquires the running speed information of the user, the motion pattern emphasizing leg massage may be matched for the user so that the legs of the user are relaxed.

Preferably, the exercise intensity sensing unit 22 may also be disposed on a portable or wearable device, such as a sports bracelet, a sports arm ring, or a mobile terminal (e.g., a mobile phone).

Preferably, the exercise intensity sensing unit 22 further has a communication module 221, the control unit 211 has a communication interface (not shown) corresponding to the communication module 221, the communication module 221 is in communication connection with the control unit 211, the communication module 221 may be a wired communication module or a wireless communication module, and when the communication module 221 is a wireless communication module, which may be information shared with communication devices (e.g. mobile terminals) within the same local area network or a generalized network, with the arrangement, the user can intuitively acquire the exercise intensity information of the user and, more preferably, taking the communication device as an example of a mobile terminal, the mobile terminal is installed with an application program adapted to the massage device 21, and the user can edit the action mode of the massage device through the application program, with this arrangement, the user can customize the action mode of the massage device 21 according to the exercise intensity information of the user.

As shown in fig. 3, the exercise intensity sensing unit 22, the massage device 21 and the illumination unit 23 are communicatively connected within the same network through a router 24, and in some embodiments, the exercise intensity sensing unit 22, the massage device 21 and the illumination unit 23 may also be communicatively connected in other ways.

Preferably, the smart home system further includes a lighting unit 23, the lighting unit 23 is in communication connection with the control unit 211 and is configured to provide a lighting environment for the user, and the lighting unit 23 is capable of matching the corresponding lighting environment according to the exercise intensity level, specifically, when the exercise intensity level is high intensity, the fatigue degree of the user is high, and therefore, the color temperature of the lighting unit 23 may be reduced or the color tone may be adjusted to be warm, so as to slow down fatigue of the user during massage.

In this embodiment, the massage device 21 can match the corresponding action mode according to the exercise intensity of the user, can quickly relieve the fatigue of the user when the exercise intensity of the user is high, can perform focused massage with pertinence according to the exercise part of the user, and can further assist with the color temperature (or color tone) adjustment of the lighting unit 23, so that the fatigue of the user is further relieved.

As shown in fig. 4, the method for controlling the smart home system according to the embodiment includes:

the method comprises the steps of obtaining exercise intensity information, namely obtaining a plurality of different pieces of state information of the intelligent household equipment, wherein the different pieces of state information comprise the exercise intensity information of a user;

And a motion pattern matching step of executing the motion pattern of the corresponding massage device/lighting device at least partially based on the exercise intensity information of the user.

[ third embodiment ]

Referring to fig. 5, the smart home system further includes a heart rate sensor 0350, wherein the heart rate sensor 0350 is in communication connection with the control unit 0330. The heart rate sensor 0350 may be a heart rate sensor 0350 attached to a predetermined portion of the massage chair, for example, a heart rate sensor 0350 attached to a position in contact with a human body artery such as the heart, the wrist, or the neck; alternatively, the heart rate sensor 0350 may also be a heart rate sensor 0350 worn by the user himself, and the massage chair provides an interface to connect with such a personal health advisor device with a heart rate sensor 0350 or a corresponding cloud server, so that via this communication connection real-time heart rate feedback of the user for the massage action is obtained.

The heart rate sensor 0350 senses the emotion of the user by detecting the heart rate of the user. For example, if the heart rate of the user is too low, it is reflected that the mood of the user is low or the physical health of the user is in problem; if the heart rate of the user is flat, the emotion of the user is stable, and the state is relaxed; if the heart rate of the user is too high, it may reflect a fluctuating mood of the user, such as stress, anger, or tiredness. The heart rate can be determined by the absolute value data of the heart rate or by the relative value data of the heart rate, for example, in the whole course of the massage event, the heart rate sensor 0350 monitors the heart rate of the user, and the relative value data can be the comparison between the real-time heart rate value and the heart rate value before the massage event occurs or the comparison between the real-time heart rate value and the historical record center rate value of the massage event. The historical heart rate value can be a heart rate value recorded in a previous massage event or a heart rate value fed back by a user and received by a previous massage action of the current massage event.

The embodiment also provides a control method of the intelligent home system, which comprises the following steps:

the output of the massage apparatus 0310 and/or the illumination device 0320 is controlled according to the detection data of the heart rate sensor 0350.

Taking a massage chair as the massage device 0310, detecting the heartbeat frequency of the human body by the heart rate sensor 0350, and reflecting the massage mode of the massage device 0310 by the illumination color temperature of the illumination device 0320 as an example, the more specific application scenario of the embodiment is as follows:

the massage chair is started in a default starting mode, for example, the massage chair is started in a second gear (the massage strength is 20N, the vibration frequency is 30Hz), the massage is performed on the user, and the lighting mode is loaded into a mode which acts synchronously with the massage chair in response to the starting of the massage chair, for example, the color temperature of the current lighting mode is 4000K, and the color light is white, which indicates that the heart rate of the user is in a normal state at the moment. When the execution unit 0312 performs a massage action, the heart rate sensor 0350 detects in real time that the heart rate of the user sitting on the massage chair is 90 times/min, and transmits the heart rate value to the control unit 0330. The control unit 0330 compares the heart rate value with a pre-stored heart rate value (e.g. 70-80 times/min) detected by the heart rate sensor 0350 when the heart rate of the human body is normal. This detected heart rate value is higher than the preset heart rate value, and therefore the control unit 0330 determines that the current heart rate of the user is too fast. In response to learning that the user is in a state of slower heart rate, in some embodiments, a massage mode that increases or decreases the intensity of the massage may be employed. Taking the reduction of the massage intensity as an example, the control unit 0330 sends an instruction to the massage chair to control the massage chair to switch the action mode, and the massage chair is reduced from the second gear (the massage force is 20N, and the vibration frequency is 30Hz) to the first gear (the massage force is 10, and the vibration frequency is 10Hz), so as to reduce the massage force and the vibration frequency, so as to relieve the massage action and reduce the heart rate of the user. Meanwhile, the control unit 0330 sends an instruction to the 0330 lighting device 0320, the lighting device 0320 is controlled to switch the lighting mode, the color temperature of the lighting device 0320 is reduced from 4000K to 2500K, and the lighting mode with lower color temperature can cooperate with the action of the massage chair to guide the reduction of the heart rate of the user.

If in this second gear (massage force of 20N, vibration frequency of 30Hz), the heart rate sensor 0350 detects that the heart rate of the user is 60 times/min, which is lower than the preset heart rate value, then the control unit 0330 determines that the heart rate of the user is too slow. In response to learning that the user is in a state of slower heart rate, in some embodiments, a massage mode that increases or decreases the intensity of the massage may be employed. Taking the improvement of the massage intensity as an example, the control unit 0330 may control the action mode of the execution unit 0312 of the massage chair to be increased from the second position (the massage strength is 20N, and the vibration frequency is 30Hz) to the third position (the massage strength is 40N, and the vibration frequency is 60Hz), so as to increase the massage strength and the vibration frequency. Meanwhile, the control unit 0330 sends an instruction to the lighting device 0320, the lighting device 0320 is controlled to switch the lighting mode, the color temperature of the lighting device 0320 is increased from 4000K to 5000K, and the lighting mode with higher color temperature can guide the increase of the heart rate of the user in cooperation with the increase of the massage force and the vibration frequency of the massage chair.

By switching the massage mode and the illumination mode of the massage chair and/or the illumination device 0320, the heart rate of the user can be effectively maintained in a stable state. The heart rate is maintained at a steady state value range, which in some embodiments, is adjustable. For example, by adjusting the range of the heart rate steady state value to be relatively low, for example, setting the heart rate threshold value to be below 70, the massage chair and the lighting device 0320, as a set of system, can reduce the heart rate of the user to a low level as a sleep mode for guiding the user to enter a sleep state; alternatively, the heart rate threshold may be set to 90 or more, so that the massage chair and the lighting device 0320, as a set system, can raise the heart rate of the user to a higher level as a waking mode for guiding the user to enter the working state.

The intelligent home system that this embodiment provided can detect user's rhythm of the heart, according to the nimble motion mode that changes of rhythm of the heart that detects, adjustment massage dynamics and vibration frequency. The color temperature of the lighting device 0320 is changed according to the detected heart rate, and visual perception can be given to a user through the color temperature and the color temperature change, so that the user can be reminded of the heart rate. In some embodiments, the user can be prompted to execute the next massage mode of the unit 0312 by using the change of the illumination mode, so that the mode switching event in the massage process can be perceived more intuitively, and the continuity and predictability of the massage process are improved.

The heart rate sensor 0350 in the present embodiment may be provided in a hand rest of the massage chair, and the hand or the wrist may be brought into contact with the heart rate sensor 0350 to detect when the user puts his or her arm on the hand rest. The heart rate sensor 0350 may be disposed on the back of the massage chair corresponding to the human body, and when the user chair leans on the massage chair, the heart rate sensor 0350 contacts the back of the user and detects the heart position of the user.

As shown in fig. 6, the method for controlling the smart home system according to the present embodiment includes:

A heart rate information obtaining step, namely obtaining a plurality of different state information of the intelligent household equipment, wherein the state information contains heart rate information of a user;

a motion pattern matching step of executing motion patterns of the corresponding massage device/lighting device based at least in part on the heart rate information of the user.

[ fourth embodiment ] A

Referring to fig. 7, the smart home system further includes a camera 0450, and the camera 0450 is in communication connection with the control unit 0430. The camera 0450 captures a face image of the user and transmits the face image to the control unit 0430, and the control unit 0430 obtains personal information of the user according to the face image analysis, so that information such as age, emotion and fatigue of the user is obtained. Then, the control unit 0430 controls the action of the massage device 0410 and/or the lighting device 0420 according to the analyzed information. For example, when the user is older, has a low mood or is in a fatigue state, the massage force and the vibration frequency of the massage chair can be properly reduced; if the personal information of the user is displayed in the age range, mood and slow state which can accept high intensity massage or in the excited state of muscle tension, the massage strength and the vibration frequency of the massage chair can be properly strengthened.

The embodiment also provides a control method of the intelligent home system, which comprises the following steps:

the output of the massage device 0410 and/or the lighting device 0420 is controlled based on the image information photographed by the camera 0450.

Taking a massage chair as the massage device 0410, massaging the user by using the execution unit 0412, capturing a facial image of the user by using the camera 0450 to identify the age, emotional state, or fatigue of the user, and reflecting the massage mode of the massage device 0410 by using the illumination position of the illumination device 0420 as an example, a more specific application scenario of the embodiment is as follows:

the massage chair is activated in a default activation mode, for example, in the second gear (20N massage force and 30Hz vibration frequency) to massage the user, and the illumination mode is loaded in a mode of synchronous action with the massage chair in response to the activation of the massage chair. When the execution unit 0412 performs a massage action, the camera 0450 captures the face information of the user and transmits it to the control unit 0430, and the control unit 0430 analyzes the face information of the user to acquire information such as age, emotional state, or fatigue of the user.

If the control unit 0430 analyzes that the user is older, has a low mood or is in a fatigue state, the control unit 0430 sends an instruction to the massage armchair to control the execution unit 0412 of the massage armchair to switch the action mode, and the action mode is reduced from the second gear (the massage force is 20N, and the vibration frequency is 30Hz) to the first gear (the massage force is 10N, and the vibration frequency is 10Hz), so as to reduce the massage force and the vibration frequency for the user. At the same time, the control unit 0430 sends an instruction to the lighting device 0420 to control the lighting device 0420 to switch the lighting mode.

If the control unit 0430 analyzes that the user is healthy, young, and emotional, and slow, or in an excited state with tensed muscles, the control unit 0430 sends an instruction to the massage chair to control the execution unit 0412 of the massage chair to switch the action mode from the second gear (the massage force is 20N, and the vibration frequency is 30Hz) to the third gear (the massage force is 40N, and the vibration frequency is 60Hz), and the massage force and the vibration frequency are appropriately increased. At the same time, the control unit 0430 sends an instruction to the lighting device 0420 to control the lighting device 0420 to switch the lighting mode.

The smart home system in this embodiment may estimate information such as age, emotion, and fatigue of the user using image information captured by the camera 0450, flexibly change an operation mode of the massage chair according to the detected information such as age, emotion, and fatigue, and adjust output parameters such as massage strength and vibration frequency, thereby performing massage on the human body in a more customized and real-time feedback manner.

The age, emotion and fatigue information of the user are estimated by using the image information shot by the camera 0450, so that on one hand, the use scene of the massage chair can be enlarged, for example, the situation that personal information such as shared massage chairs is not conveniently acquired by an intelligent home system; on the other hand, for some real-time states that change constantly, such as emotion and fatigue information, providing image information enables more accurate estimation or grasp of the real-time state information.

The camera 0450 in the present embodiment may be, for example, a camera 0450 facing the massage chair, which is installed in cooperation with the massage chair, and an installation angle of the camera 0450 is suitable for obtaining a facial image of a user when the user sits on the massage chair. In some embodiments, camera 0450 may employ a camera mode to obtain a real-time image of the user's face.

In some embodiments, the installation angle of the camera 0450 may also be configured to be suitable for obtaining a full-body or half-body image of the user. The obtained whole or half-body image information can be used for posture recognition of the user. For example, the user may generate shaking motion reflecting discomfort for massage motions with excessive force or frequency, and the motion reflecting discomfort may be effectively captured by using the recognition of the user's posture in the image recognition, so as to control the corresponding motion or mode switching of the massage chair according to the image recognition result.

In the present embodiment, the image information captured by the camera 0450 may be a flat image, such as a photograph, or a moving image, such as a video, and the camera 0450 transmits the captured image information, such as a flat image or a moving image, to the control section 0430, and the control section 0430 analyzes information, such as the age, emotion, and fatigue of the user, based on the received image information.

Preferably, in this embodiment, the smart home system further includes a lighting device used in conjunction with the massage armchair, the lighting device may also be the lighting device 0420, the lighting device 0420 can be correspondingly opened when the camera 0450 works, and illuminates the face of the user, so that a light supplement effect is provided for shooting of the camera 0450 when the camera 0450 works, and the definition of image information shot by the camera 0450 is improved. Preferably, the lighting device 0420 can provide repeatable illumination conditions for shooting by the camera 0450, for example, the light supplement eliminates the influence of ambient light, provides a relatively same or similar illumination environment for each shooting event, and improves the homogenization degree of the image information aimed at in the image analysis process, thereby improving the accuracy degree of image recognition. In some embodiments, a special color light or a special angle illumination, for example, a three-point illumination condition with a color temperature of 3000K, may be provided for the shooting of the camera 0450, so as to enhance the facial features of the user, and facilitate accurate learning of information such as the age, emotion, and fatigue of the user through the facial features of the user.

The following describes a control method of the smart home system according to the present embodiment, and as shown in fig. 8, the control method includes the steps of:

A face image information acquisition step, wherein a plurality of different pieces of state information of the intelligent household equipment, including face image information of a user, are acquired;

a motion pattern matching step of executing a motion pattern of the corresponding massage device/illumination device based at least in part on the face image information of the user.

[ fifth embodiment ] A

Referring to fig. 9, the present embodiment provides an intelligent home system, including a massage chair 501 and a control unit 502 communicatively connected to the massage chair 501, the massage chair 501 has a acupoint sensing unit 5011, the acupoint sensing unit 5011 detects and infers organ health information of a user according to user feedback obtained by pressing of the massage chair against a specific acupoint of the user, and transmits the health information to the control unit 502, and the control unit 502 can adjust an operation parameter according to the received health information.

Further, the acupuncture point sensing unit 5011 may be one or a combination of a pressure sensor, a tremor sensor, a temperature sensor and a heart rate sensor, and the acupuncture point sensing unit 5011 including a pressure sensor, a tremor sensor and a heart rate sensor is described as an example below, the pressure sensor is used for recording the pressure of the user on each part of the massage chair 501; a tremor sensor for recording a tremor condition of a user; a heart rate sensor for recording a heart rate of a user; for example, when the massage armchair 501 massages an acupuncture point at the left shoulder of the user, the left shoulder of the user is sore and painful, the body of the user approaches to the right side of the massage armchair 501 due to the pain, and the left shoulder of the user is trembled and the heartbeat is accelerated; at this time, the pressure data collected by the pressure sensor on the right side of the massage chair 501 is obviously larger than the data collected by the pressure sensor on the left side; the tremor data collected by the tremor sensor on the left side of the massage chair is obviously larger than that in the normal condition; the data received by the heart rate sensor is significantly larger than normal.

Further, the acupuncture point sensing unit 5011 is in communication connection with the control unit 502, and transmits health condition information such as pressure of the user on each part of the massage chair 501, tremor condition, and heart rate information of the user to the control unit 502.

Further, the control unit 502 stores health condition information and can control the operation of the smart home system, and after the control unit 502 acquires the health condition information transmitted by the acupuncture point sensing unit 5011, the control unit analyzes the health condition information of the organ corresponding to the acupuncture point of the user and adjusts the operation parameters of the control unit 502.

Further, the operation parameters of the control unit 502 include nutritional information and exercise information, and specifically, when the control unit 502 determines that the health condition of the organ is not good, the control unit 502 formulates a menu according to the required nutritional ingredients of the organ to generate the nutritional information, issues a purchase instruction to the refrigerator, and the control unit 502 formulates an exercise scheme according to the required exercise type and exercise intensity of the organ to generate the exercise information.

Preferably, the control unit 502 has a shopping-end-matching application that can customize purchase content and place orders for purchase based on the nutritional information.

Preferably, the control unit 502 controls the food processor to cook food according to a recipe generated from the organ health information.

[ sixth embodiment ] A

The present embodiment provides an intelligent home system, as shown in fig. 10, including a massage device 61 and a body fat detection device 62 communicatively connected to the massage device 61, where the massage device 61 can acquire body state information of a user from the body fat detection device 62, and match an action pattern suitable for the user according to the body state information of the user.

The body fat detecting device 62 may be a commercially available body fat scale, which may have a function of sharing measurement data with the mobile terminal through a wireless network, and the body state information that can be detected mainly includes: body fat rate, visceral fat, subcutaneous fat, body age, muscle mass, lean body mass, basal metabolism, etc.

Since the body fat detection device 62 mainly plays a role of measuring the body state information of the user, the user can obtain intuitive measurement data, but the obtained data is not fully utilized, so in the present embodiment, the massage apparatus 61 and the body fat detection device 62 are communicatively connected, and since the manner of the communicative connection is substantially the same as that of the connection between the massage apparatus 21 and the exercise intensity sensing unit 22 in the second embodiment, the detailed description thereof is omitted. The body fat detection device 62 can transmit the body state information of the user to the massage device 61, specifically, the massage device 61 has a control unit 611 and an execution unit 612, wherein the execution unit 612 can perform a massage action, the control unit 611 stores the state information of the massage device 61 and can control the operation of the execution unit 612, wherein the state information can include massage part information, massage force information, massage mode information, and the like, correspondingly, the massage device 61 can have a plurality of action modes, and the state information called in each action mode is different to meet the diversified requirements of the user.

Further, the control unit 611 may analyze the acquired body state information, determine the body condition (mainly, the body fat rate) of the user, and preferably, the control unit 611 may divide the body condition of the user into several grades (e.g., thin, normal, light, moderate, and heavy), and match the corresponding motion pattern according to the body condition grade, for example, when the control unit 611 determines that the body condition of the user is thin, a relatively soft motion pattern may be matched for the user, for example, a motion pattern with a relatively small massage force may be matched, and thus, the user may be prevented from generating pain during the massage; when the control unit 611 determines that the physical condition of the user is severely obese, a more drastic motion pattern, for example, a motion pattern with a large massage force and a high vibration frequency, may be matched for the user, and with such an arrangement, subcutaneous fat of the user may be sufficiently consumed, and a passive fat-reducing effect may be achieved.

Preferably, the massage device 61 may use the physical condition information acquired by the other self-fat detection device 62, for example, the age of the user, and when the age of the user is greater than sixty years, it is determined that the physical condition of the user is not suitable for an excessively vigorous massage technique, and accordingly, a gentle motion pattern, specifically, a motion pattern with a small massage force may be matched to the user.

Of course, since different users have different requirements for using the massage device 61, when comfort is the primary requirement of the users, the users can also use the massage device 61 in a conventional motion mode, and preferably, the users can also define the motion mode of the massage device 61 by themselves.

In the embodiment, the action mode of the massage device 61 is correspondingly matched according to the different physical conditions of the user, so that the user can not only obtain more comfortable use experience, but also achieve the effect of losing weight through massage by the user with a fat body shape.

As shown in fig. 11, the method for controlling the smart home system according to the present embodiment includes:

a body fat information acquiring step of acquiring a plurality of different state information of an intelligent household device, wherein the state information includes body fat information of a user; specifically, the control unit 611 acquires body fat information of the user via the body fat detection device 62.

A motion pattern matching step of executing a motion pattern of the corresponding massage device/lighting device based at least in part on the body fat information of the user, and specifically, the control unit 611 sends an instruction to the execution unit 612 according to the body fat information of the user to control the execution unit 612 to operate in the corresponding motion pattern.

[ seventh embodiment ] A

Referring to fig. 12, the smart home system further includes a temperature sensor 0750, and the temperature sensor 0750 is in communication with the control unit 0730. The temperature sensor 0750 detects the body temperature of the user, and thereby estimates the physical state of the user, such as correlation with the exercise state, or emotional state information. For example, if the body temperature of the user is high, it indicates that the user may be in a state of intense exercise or fluctuating emotion with high probability, if the body temperature of the user is normal, it indicates that the user is in a normal state or an emotional stable state with high probability, and if the body temperature of the user is low, it indicates that the user is in a state of low emotion or a health problem with high probability. Of course, in some embodiments, the determination of the state is not limited to using the body temperature as the only influencing parameter, and the comprehensive determination may be performed by integrating the body temperature and other parameters, such as image information obtained by a camera, or parameters such as heart rate and fatigue degree.

The embodiment also provides a control method of the intelligent home system, which comprises the following steps:

the output of the massage device 0710 and/or the lighting device 0720 is controlled according to the detection data of the temperature sensor 0750.

Taking a massage chair as the massage device 0710, detecting the body temperature of the human body by using the temperature sensor 0750, and reflecting the massage mode of the massage device 0710 by using the lighting flicker frequency of the lighting device 0720 as an example, a more specific application scenario of the embodiment is as follows:

the massage chair is started in a default starting mode, for example, the massage chair is started in a second gear (the massage strength is 20N, the vibration frequency is 30Hz), the massage is performed on the user, and the illumination mode is loaded into a mode which acts synchronously with the massage chair in response to the starting of the massage chair, for example, the flicker frequency of the current illumination mode is 20Hz, which indicates that the user is in a normal body temperature state at the moment. When the execution unit 0712 executes the massage operation, if the temperature sensor 0750 detects that the body temperature of the user on the massage chair is 35 ℃, the body temperature value is transmitted to the control unit 0730. The control unit 0730 compares the body temperature value with a pre-stored normal body temperature range (36-37 ℃) of the human body. The detected body temperature value is lower than the preset threshold value of 36 ℃, and therefore, the control unit 0730 judges that the body temperature of the user is too low. The control unit 0730 sends an instruction to the massage chair, controls the execution unit 0712 of the massage chair to switch the action mode from the second gear (the massage force is 20N, and the vibration frequency is 30Hz) to the first gear (the massage force is 10N, and the vibration frequency is 10Hz), and reduces the massage force and the vibration frequency for the user. Meanwhile, the control unit 0730 sends a command to the lighting device 0720 to control the lighting device 0720 to switch the lighting mode, and the flicker frequency of the lighting device 0720 is reduced from 20Hz to 5 Hz.

If the user is in the second gear (the massage force is 20N, the vibration frequency is 30Hz), the temperature sensor 0750 detects that the body temperature of the user is 37.5 ℃ and higher than a preset body temperature value, and therefore, the control unit 0730 judges that the body temperature of the user is too high. The control unit sends an instruction to the massage armchair, controls an execution unit 0712 of the massage armchair to switch the action mode, and increases the massage strength to the user from the second gear (the massage strength is 20N, and the frequency is 30Hz) to the third gear (the massage strength is 40N, and the frequency is 60 Hz). Meanwhile, the control unit 0730 sends a command to the lighting device 0720 to control the lighting device 0720 to switch the lighting mode, so that the flicker frequency of the lighting device 0720 is increased from 20Hz to 50 Hz.

In the intelligent home system and the control method of the intelligent home system in the embodiment, the body temperature of the user is detected, the action mode of the massage chair is flexibly changed according to the detected body temperature, and the output parameters such as the massage strength and the massage frequency are adjusted. In addition, the switching of the operation mode can be intuitively reflected by the switching of the illumination mode of the illumination device, thereby giving the user an intuitive visual feeling.

The body temperature detection is utilized to switch the action mode of the massage chair and/or the lighting device or adjust the output parameters of the massage chair and/or the lighting device, and the massage chair and the lighting device have the following advantages: on the one hand, some massage chairs provide a working space for accommodating a user in a surrounding, semi-surrounding or clinging manner, and the temperature sensor 0750 arranged in the massage chair can form more accurate measurement of the body temperature; on the other hand, because the mode of acquiring data in real time is adopted in the embodiment, the wired direct connection mode in the massage chair can shorten the transmission time of the data, reduce the feedback delay of the massage chair for forming a massage mode or switching massage actions, and effectively improve the instant feedback capacity of the massage; moreover, the body temperature index is intuitive and easy to perceive in the massage process, can accurately reflect the user requirements or the parameter indexes of the user, and can generate output parameters which can accurately estimate the user requirements by means of or in combination with the body temperature index for output control. In addition, although the temperature sensor 0750 in the present embodiment may be disposed at any position on the massage chair, in some embodiments of the present invention, the temperature sensor 0750 may be disposed independently of the massage chair.

Further, the heating and air-conditioning system of the massage chair may be turned on synchronously during the massage as described in the eighth embodiment. When the body temperature is recovered to normal by improving the human body state through massage, the heating or air conditioning system is turned off, the massage is stopped, or the massage gear is recovered to the second gear (or the first gear) until the massage process is finished. If the body temperature is not improved after the preset massage time, the body condition of the user is judged to be abnormal, the lighting device is changed into a reminding color (such as red), and the user is further reminded to rest, seek medical advice and the like.

In addition, the intelligent home system can be linked with an indoor air conditioner 0760 system, when the temperature of a human body is detected to be too high, the control unit 0730 controls the air conditioner 0760 to be opened and the running temperature to be reduced, and when the temperature of the human body is detected to be too low, the control unit 0730 controls the air conditioner 0760 to be opened and the running temperature to be increased.

The following describes in detail a control method of the smart home system according to the present embodiment, and as shown in fig. 13, the control method includes the steps of:

a body temperature information acquiring step, namely acquiring a plurality of different state information of intelligent household equipment, wherein the state information contains body temperature information of a user;

and a motion pattern matching step of executing the motion pattern of the corresponding massage device/lighting device at least partially based on the body temperature information of the user.

[ eighth embodiment ] of the present invention

The present embodiment provides an intelligent home system, as shown in fig. 14, including a massage chair 81 and a temperature measurement device 82 in communication connection with the massage chair 81, wherein the massage chair 81 can acquire temperature information from the temperature measurement device 82, and match a suitable operation mode according to the temperature information.

The temperature measuring device 82 may be an indoor thermometer having a communication interface (not shown), or may be another temperature measuring device capable of measuring temperature, and specifically, the communication interface may be a wired communication interface or a wireless communication interface as long as it can be adapted to the massage chair 81.

In the smart home system provided in this embodiment, the massage chair 81 includes the temperature adjustment unit 811, the temperature adjustment unit 811 can control the body-sensing temperature of the user using the massage chair 81, specifically, the temperature adjustment unit 811 includes the warming unit 812 and the cooling unit 813, where the warming unit 812 may be an air conditioning unit built in the massage chair 81, or may be a heater disposed at a seat, a sole, and/or a backrest of the massage chair 81, and the cooling unit 813 may be an air conditioning unit built in the massage chair 81, where when the warming unit 812 and the cooling unit 813 are both air conditioning units, they may use the same set of circulation system.

It should be noted that, although the present embodiment illustrates an example in which the temperature adjustment unit 811 is provided in the massage chair 81, this is not a limitation to the present invention, and the smart home system provided in the present embodiment may also be capable of being communicatively connected to an external temperature adjustment device to control the operation of the temperature adjustment device, wherein the temperature adjustment device may be one or more of an air conditioner, an electric fan, and a geothermal heating system that can be communicatively connected to the massage chair 81, or may be another temperature adjustment device that can be used to adjust the ambient temperature.

In some embodiments, the smart home system may transmit the ambient temperature information to the control unit 814 in a manual input manner instead of the temperature measuring device 82, specifically, the user may complete the input of the ambient temperature information through a control panel (not shown) of the massage chair 81, or may complete the input of the ambient temperature information through a mobile terminal communicatively connected to the massage chair 81.

It should be noted that, in some embodiments, the temperature measuring device 82 may also be integrated with the massage chair 81, for example, disposed at the armrest of the massage chair 81.

Further, the massage chair 81 has a control unit 814, wherein the control unit 814 stores status information of the massage chair 81 and can control the operation of the massage chair 81, wherein the status information may include massage part information, massage strength information, massage mode information, and the like, and accordingly, the massage chair 81 may have a plurality of action modes, and the status information called in each action mode is different to meet diversified requirements of the user.

Further, the control unit 814 of the massage chair 81 is in communication connection with the temperature measuring device 82 and the temperature adjusting unit 811, respectively, and the control unit 814 can control the operation of the temperature adjusting unit 811 according to the temperature information obtained from the temperature measuring device 82, specifically, the control unit 814 can divide the ambient temperature into several levels (e.g., high temperature, medium temperature, and low temperature) and can match the corresponding action modes according to the temperature levels, for example, when the temperature adjusting unit 811 judges that the current ambient temperature is low temperature, a temperature increasing instruction is sent to the temperature adjusting unit 811, and correspondingly, when the temperature adjusting unit 811 judges that the current ambient temperature is high temperature, a temperature decreasing instruction is sent to the temperature adjusting unit 811.

Preferably, the user can define the operation mode of the massage chair 81 according to the use requirement, and specifically, the user can set the massage chair 81 to operate according to different operation parameters based on different seasons, for example, when the user uses the massage chair 81 in winter, the temperature increasing unit 812 is correspondingly turned on along with the operation of the massage chair 81, when the user uses the massage chair 81 in summer, the temperature decreasing unit 813 is correspondingly turned on along with the operation of the massage chair 81, and of course, the user can define the massage chair 81 to operate under other operation parameters according to the use requirement.

The intelligent home system provided by the embodiment can adjust the operation parameters according to the environment temperature, and particularly can adjust the body sensing temperature of the user, so that the user obtains more comfortable and pleasant massage experience in the massage process.

The following describes in detail a control method of the smart home system according to the present embodiment, and as shown in fig. 15, the control method includes the steps of:

an ambient temperature information obtaining step, namely obtaining a plurality of different state information of intelligent household equipment, wherein the state information contains ambient temperature information;

and a motion pattern matching step of executing motion patterns of the corresponding massage device/lighting device at least partially based on the environment temperature information.

[ ninth embodiment ] to provide a medicine

This intelligent home systems still includes bone density sensor, bone density sensor and the control unit communication connection, and bone density sensor sets up on the body fat scale.

The bone density sensor detects the bone density of the user, so that the bone health condition of the user is judged. For example, if the bone density of the user is normal, the bone health of the user is reflected; and if the bone density of the user is too low, reflecting the bone abnormality of the user.

The embodiment also provides a control method of the intelligent home system, which comprises the following steps:

And controlling the output of the cooking device and the body-building device according to the detection data of the bone density sensor.

The body fat is called as a measuring device, the bone density of a user is detected by using a bone density sensor, and the more specific application scene of the embodiment is as follows:

the user stands on the body fat scale, and the bone density sensor detects that the bone density of the user on the body fat scale is 1.2, and transmits the bone density value to the control unit. The control unit compares the bone density with a bone density (for example, -0.1 to 0.1) detected by a human body in a bone health state in advance. The detected bone density is higher than a preset bone density, and thus, the control unit judges the bone health of the user. The control unit sends instructions to the cooking device and the body-building device, controls the cooking device and the body-building device to switch the working modes, and reduces the working modes from the strengthening mode (the cooking device is used for calcium supplement, and the body-building device is used for reducing the exercise amount) to the common mode (the cooking device is used for common mode, and the body-building device is used for increasing the exercise amount), so that the calcium supplement to the user is reduced, and the exercise amount of the user is increased.

If the bone density sensor detects that the bone density of the user located in the body fat scale is-3.0, the bone density sensor transmits the bone density to the control unit. The control unit compares the bone density with a pre-stored interval of bone density (e.g., < -2.5) detected when the human body is in an osteoporotic state. The detected bone density is within the set bone density interval, and therefore, the control unit judges that the bone condition of the user is loose. The control unit sends instructions to the cooking device and the body-building device, controls the cooking device and the body-building device to switch the working mode, and increases the working mode from a common mode to an enhanced mode, thereby enhancing calcium supplement for users and reducing the exercise amount of the users.

[ DETAILURE MODE ] OF THE INVENTION

This embodiment provides an intelligent home system, as shown in fig. 16, it mainly includes: the massage chair 1010 and the height detection device 1020 connected with the massage chair 1010 in a communication way, the massage chair 1010 can adjust the action mode according to the detected height information of the user, specifically, the massage chair 1010 is provided with a plurality of massagers 1030 distributed at different positions, such as a leg massager corresponding to legs and a back massager corresponding to backs, the arrangement position of the massager 1030 usually corresponds to the muscle and/or acupuncture point arrangement of the human body, and the positions of the corresponding muscle and acupuncture point are usually different for users with different heights, therefore, in the embodiment, the position of the massager 1030 can be adjusted, and the mentioned position adjustment can be one or a combination of up-and-down adjustment, left-and-right adjustment and front-and-back adjustment.

Further, the massage chair 1010 has a control unit 1040, the control unit 1040 is in communication connection with the height detection device, the control unit 1040 stores status information of the massage chair 1010 and can control the operation of the massage chair 1010, wherein the status information may include massage part information, massage force information, massage mode information, massager position information, and the like, and accordingly, the massage chair 1010 may have a plurality of action modes, and the status information called in each action mode is different to meet diversified requirements of the user.

In this embodiment, it is considered that the difference between the positions of the muscles and the acupuncture points of different users is greatly influenced by the height difference, so the height of the user is detected by the height detection device 1020, the height information is transmitted to the control unit 1040, and the control unit 1040 sends a corresponding instruction for adjusting the position of the massager 1030 to the massager 1030 according to the height information, thereby realizing diversification and intellectualization of the action mode of the massage chair 1010 and bringing better use experience to the user.

Wherein, the height detection device 1020 can be installed on the massage chair 1010, and measure the height of the human body by detecting the length of each part of the human body contacting with the massage chair 1010, for example, by installing the height detection device 1020 on a leg rest (not shown) of the massage chair 1010 for measuring the leg length of the user's calf, and correspondingly, by installing the height detection device 1020 on another position of the massage chair 1010 for measuring the body length of another part of the user, and finally measuring the height of the user, wherein the height detection device can be an infrared sensor, and the length of the part can be calculated by confirming the position of the specific part of the user's body through the transmission and reception of infrared signals, preferably, the height detection device 1020 can also be installed on the massage chair 1010, and the height information of the user can be obtained by detecting the height of the user standing in front of the massage chair 1010, wherein the height detection device 1020 is an infrared sensor, in the technical scheme, the height detection result of the user is more accurate.

It should be noted that the user can also choose to input his or her own height information by himself or herself to receive the massage service more accurately, and the way for the user to input his or her own height information may be through the control panel of the massage chair 1010 or through the mobile terminal in communication with the massage chair 1010.

In this embodiment, the massage chair 1010 can correspondingly adjust the position of the massage device 1030 according to the height difference of the user, so that the operation of the massage chair 1010 is more intelligent and humanized, and the user obtains better use experience.

The following describes in detail a control method of the smart home system according to the present embodiment, and as shown in fig. 17, the control method includes the steps of:

a height information acquiring step of acquiring height information of a user;

and a massager position adjusting step, wherein the position of the massager is correspondingly adjusted based on the height information of the user.

In the present embodiment, the personal information of the user, for example, the height is collected and analyzed, and the operation mode corresponding to the personal information is determined accordingly. In some embodiments, the targeted personal information may also be other personal information besides height, such as country, age, sex, etc., and the acquisition of the information may be acquired by sensors of local or interconnected devices, or may be directly acquired by downloading or transmitting personal information data.

[ embodiment eleven ]

The intelligent home system further comprises a camera, and the camera is in communication connection with the control unit. The camera shoots the face information of the user and transmits the face information to the control unit, the control unit analyzes and identifies the face information of the user so as to obtain the information of the jaundice severity degree of the user, and then the control unit controls the action of the lighting device according to the analyzed information. For example, the user has no jaundice, the lighting device is in a common mode, and a common light source is turned on; if the user suffers from jaundice, the lighting device is in a treatment mode, and the blue light is turned on.

The embodiment also provides a control method of the intelligent home system, which comprises the following steps:

and controlling the output of the lighting device according to the information shot by the camera.

Taking the image of the face of the user shot by the camera to identify the jaundice severity information of the user as an example, a more specific application scenario of the embodiment is as follows:

the face information of the user is shot by the camera and transmitted to the control unit, and the control unit analyzes the face information of the user so as to acquire the jaundice severity information of the user.

If the control unit analyzes that the user has no jaundice, the control unit sends an instruction to the lighting device to control the lighting device to be switched into a common mode, and the light source for irradiating the user is a common light source.

If the control unit analyzes that the user suffers from jaundice, the control unit sends an instruction to the lighting device to control the lighting device to be converted into a treatment mode, and an irradiation light source of the user is blue light.

[ twelfth embodiment ] A method for producing a food product

The intelligent household system further comprises a cleaning device, and the cleaning device is in communication connection with the management background. The camera shoots dust information in the environment, transmits the dust information to the management background, the management background analyzes the dust information of the environment, and accordingly obtains information of the cleanliness of the environment, and then the management background controls the action of the cleaning device according to the analyzed information. For example, when the environment is clean, the cleaning force of the cleaning device can be reduced; if the environment is not clean, the cleaning force of the cleaning device can be enhanced.

The embodiment also provides a control method of the cleaning device, which comprises the following steps:

and controlling the output of the cleaning device according to the information shot by the camera.

With air purifier and robot of sweeping the floor as cleaning device, the dust information that utilizes the camera to shoot the environment is with the clean degree of discernment environment as an example, and the more specific application scenario of this embodiment is as follows:

the dust information of the environment shot by the camera is transmitted to the management background, and the management background analyzes the dust information of the environment so as to acquire the information of the cleanness degree of the environment.

If the environment obtained by analysis of the management background is clean, the management background sends an instruction to the cleaning device to control the air purifier and the sweeping robot of the cleaning device to switch the working modes, and the working modes are reduced from the strong mode to the weak mode, so that the cleaning force on the environment is reduced.

If the environment is not clean, the management background sends an instruction to the cleaning device to control the air purifier and the sweeping robot of the cleaning device to switch the working mode, the weak mode is improved to the strong mode, and the cleaning force to the environment is enhanced.

[ thirteenth embodiment ] A

Referring to fig. 18, the smart home system further includes a humidity sensor 1350, and the humidity sensor 1350 is communicatively connected to the control unit 1330. The humidity sensor 1350 is disposed adjacent to or embedded in a cover (not shown in the figure, such as a leather cover or a polyurethane cover) of the execution unit 1312, a through hole capable of passing through water vapor is disposed on the cover, and the humidity sensor 1350 can detect the body surface humidity of the user by detecting the humidity near the cover, for example, can sense the sweating phenomenon of the user, so as to serve as a parameter index for evaluating the physical state of the user.

The embodiment also provides a control method of the intelligent home system, which comprises the following steps:

The output of the massage apparatus 1310 and/or the illumination 1320 is controlled based on the detection data of the humidity sensor 1350.

Taking a massage chair as the massage device 1310, using the humidity sensor 1350 to detect the body surface humidity of the human body, and using the illumination and color temperature of the lighting device 1320 to reflect the massage mode of the massage device 1310 as an example, the more specific application scenarios of the embodiment are as follows:

when a user sits on the massage chair, the execution unit 1312 is turned on, and the first gear (the massage force is 10N and the vibration frequency is 10Hz) is loaded by default to massage the user, wherein the illumination of the illumination mode at the moment is 20lx, the color temperature is 2000K, and the color is warm. While the performing unit 1312 massages the human body, the humidity sensor 1350 detects the body surface humidity of the user positioned on the massage chair as 100% rh, and transfers the body surface humidity value to the control unit 1330. The control unit 1330 compares the body surface humidity value with a pre-stored body surface humidity value (40-60% rh) detected by the humidity sensor 1350 when the body surface humidity is normal. This detected body surface humidity value is higher than the preset body surface humidity value, and therefore, the control unit 1330 determines that the body surface humidity of the user is too high, and determines that the user has just completed a relatively violent exercise with a relatively high probability by combining other parameter indexes. The control unit 1330 sends an instruction to the massage chair to control the execution unit 1312 of the massage chair to switch the action mode from the first gear (the massage strength is 10N and the vibration frequency is 10Hz) to the second gear (the massage strength is 20N and the vibration frequency is 30Hz), so that the massage strength and the vibration frequency to the user are increased. Meanwhile, the control unit 1330 transmits an instruction to the illumination device 1320, controls the illumination device 1320 to switch the illumination mode, and increases the illuminance of the illumination device 1320 from 20lx to 350lx and increases the color temperature from 2000K to 5000K.

In the intelligent home system and the control method of the intelligent home system provided in this embodiment, by detecting the body surface humidity of the user, and flexibly changing the action mode of the massage chair according to the detected body surface humidity, output parameters such as the massage force and the vibration frequency are adjusted, so that the massage is implemented more customized.

The cover piece of massage armchair, for example leather etc. in order to increase its air permeability, can set up some through-holes, and the humidity transducer 1350 that sets up in these positions can learn user's body surface humidity comparatively accurately, and in addition, body surface humidity is one of the comparatively reliable index that can predict user's health state, and the action mode of massage armchair is switched to the body surface humidity data that utilizes humidity transducer 1350 to detect, can produce the massage output parameter who predicts user's demand more accurately.

The illumination and color temperature of the illumination device 1320 can be changed according to the detected body surface humidity, and visual perception can be given to the user through the illumination, the color temperature and the change of the illumination and the color temperature, so that the body surface humidity of the user can be reminded, and subsequent life and work can be adjusted according to the body surface humidity. The user can be reminded of the next massage mode of the execution unit 1312 by using the change of the illumination mode, so that the mode switching event in the massage process can be more intuitively perceived, and the continuity and predictability of the massage process are improved.

The humidity sensor 1350 in the present embodiment may be provided at any position on the massage chair, or may be provided independently of the massage chair, as long as the detection range of the humidity sensor 1350 is within the range of the seat of the massage chair. Because the sweat areas of the human body are mostly concentrated on the forehead, the chest, the back or the arms, the preferred humidity sensor 1350 is arranged on the forehead, the chest, the back or the arms of the massage chair corresponding to the human body, so as to effectively detect the body surface humidity of the user, and thus judge whether the user sweats.

Of course, the humidity sensor 1350 may detect the ambient humidity in the room where the massage chair is located, and may link the ambient humidity with the humidifier 1360 and/or the dehumidifier 1370. When the humidity sensor 1350 detects that the indoor environment is dry, for example, the ambient humidity is lower than 20% rh, the control unit 1330 may control the humidifier 1360 to operate to humidify the indoor environment. When the humidity sensor 1350 detects the indoor environment is relatively humid, for example, the environmental humidity is higher than 80% rh, the control unit 1330 may control the dehumidifier 1370 to operate to dehumidify the indoor environment.

The humidifier 1360 and the dehumidifier 1370 may be formed in the same dehumidification-humidification all-in-one machine, or a dehumidification module in an air conditioner may be used as the dehumidifier 1370.

As shown in fig. 19, the method for controlling the smart home system according to the present embodiment includes:

a body surface humidity information obtaining step, wherein a plurality of different state information of the intelligent household equipment, including the body surface humidity information of the user, are obtained;

and a motion pattern matching step of executing motion patterns of the corresponding massage device/lighting device at least partially based on the body surface humidity information.

[ embodiment fourteen ]

Referring to fig. 20, the massage system further includes a respiratory rate sensor 1450, the respiratory rate sensor 1450 being communicatively coupled to the control unit 1430. The respiratory rate sensor 1450 can be a respiratory rate sensor 1450 installed at a specified position of the massage chair, such as the respiratory rate sensor 1450 installed at a position close to the chest or the mouth of the human body and equal to the joint position of the human breath; alternatively, the breathing frequency sensor 1450 may also be a breathing frequency sensor 1450 worn by the user himself, the massage chair according to such an interface of a personal health advisor device with the breathing frequency sensor 1450 or a corresponding cloud server connection, thereby obtaining real-time breathing frequency feedback of the user for the massage action via the communication connection.

The respiration rate sensor 1450 senses the emotion or physical condition of the user by detecting the number of breaths per unit time of the user. For example, if the breathing frequency of the user is flat, it indicates that the user is emotional, relaxed, or healthy; if the breathing frequency of the user is too high, the emotional fluctuation, the violent exercise or the physical discomfort of the user, such as asthma, palpitation and the like, are reflected; if the breathing frequency of the user is low, the user is in a sleeping state or is uncomfortable, such as unsmooth breathing and the like. The determination of the breathing rate may depend on absolute value data of the breathing rate or may depend on relative value data of the breathing rate. For example, throughout the massage event, the respiratory rate sensor 1450 monitors the user's respiratory rate, and the relative value data may be a comparison of the real-time respiratory rate value with the respiratory rate value prior to the massage event, or a comparison of the real-time respiratory rate value with the respiratory rate value in the history of the massage event. The historical respiratory frequency value may be a respiratory frequency value recorded in a previous massage event, or a respiratory frequency value fed back by the user and received by a previous massage action of the current massage event.

The embodiment also provides a control method of the massage system, which comprises the following steps:

the output of the massage device 1410 and/or the illumination device 1420 is controlled according to the detection data of the respiratory rate sensor 1450.

Taking a massage chair as the massage device 1410, detecting the breathing frequency of the human body by the breathing frequency sensor 1450, and reflecting the massage mode of the massage device 1410 by the illumination intensity and position of the illumination device 1420 as an example, the more specific application scenarios of the present embodiment are as follows:

the massage chair is started in a default starting mode, for example, the massage chair is started in a second gear (the massage strength is 20N, the vibration frequency is 30Hz) to massage the user, and the illumination mode is loaded into a mode which acts synchronously with the massage chair in response to the starting of the massage chair, so that the user is in a normal breathing frequency state at the time. When the execution unit 1412 executes the massage action, if the respiration rate sensor 1450 detects that the respiration rate of the user on the massage chair is 10 times/min, the respiration rate is transmitted to the control unit 1430. The control unit 1430 compares the respiratory rate value with a pre-stored respiratory rate value (for example, 12 to 20 times/minute) detected by the respiratory rate sensor 1450 when the human body is in a normal respiratory rate state. The detected respiratory frequency value is lower than the preset respiratory frequency value, so that the control unit 1430 determines that the respiratory frequency of the user is slow and the body of the user is likely to have a problem. In response to learning that the user is in a state of faster breathing frequency, in some embodiments, a massage mode that increases or decreases the intensity of the massage may be employed. Taking the reduction of the massage intensity as an example, the control unit 1430 sends an instruction to the massage chair, controls the execution unit 1412 of the massage chair to switch the action mode, reduces the second gear (the massage strength is 20N, the vibration frequency is 30Hz) to the first gear (the massage strength is 10N, the vibration frequency is 10Hz), reduces the massage strength and the vibration frequency, so as to relieve the massage action and reduce the breathing frequency of the user. At the same time, the control unit 1430 sends an instruction to the illumination apparatus 1420, and controls the illumination apparatus 1420 to switch the illumination mode.

If the respiratory rate sensor 1450 detects that the respiratory rate of the user is 30 times/minute and higher than the preset respiratory rate value in the second gear (the massage force is 20N and the vibration rate is 30Hz), the control unit 1430 determines that the respiratory rate of the user is faster and the user is excited or has just moved vigorously. The control unit 1430 can control the action mode of the execution unit 1412 of the massage chair to be increased from the second gear (the massage strength is 20N and the vibration frequency is 30Hz) to the third gear (the massage strength is 40N and the vibration frequency is 60Hz), so as to increase the massage strength and the vibration frequency for the user. At the same time, the control unit 1430 sends an instruction to the illumination apparatus 1420, and controls the illumination apparatus 1420 to switch the illumination mode.

By switching the massage mode and the illumination mode of the massage chair and/or the illumination device 1420, the breathing frequency of the user can be effectively maintained in a stable state. The breathing frequency is maintained at a steady state value range, and in some embodiments, is adjustable. For example, the massage chair and lighting device 1420, as a set of systems, can reduce the user's breathing rate to a lower level as a sleep mode to guide the user into a sleep state by adjusting the breathing rate steady state value range to be relatively low, for example, setting the breathing rate threshold to be 8 times/min or less; alternatively, the breathing rate threshold may be set to 25 times/min or more, so that the massage chair and the lighting device 1420, as a set of systems, can increase the breathing rate of the user to a higher level as a waking mode for guiding the user into an active state.

The massage system provided by the embodiment can flexibly detect the respiratory frequency of a user, flexibly change the action mode according to the detected respiratory frequency and adjust the massage strength and the vibration frequency. The illumination intensity and position of the illumination device 1420 are changed according to the detected breathing frequency, and the user can be given an intuitive visual feeling through the illumination intensity and position and the change thereof, so that the user can be reminded of the breathing frequency. In some embodiments, the user can be reminded to execute the next massage mode of the unit 1412 by using the change of the illumination mode, so that the mode switching event in the massage process can be perceived more intuitively, and the continuity and predictability of the massage process are improved.

As shown in fig. 21, the method for controlling the smart home system according to the present embodiment includes:

a respiratory frequency information acquisition step, namely acquiring a plurality of different state information of the intelligent household equipment, wherein the different state information comprises the respiratory frequency information of a user;

a motion pattern matching step of executing motion patterns of the corresponding massage device/lighting device based at least in part on the breathing frequency information.

[ embodiment fifteen ]

Referring to fig. 22, the massage system further comprises a pressure sensor 1550, and the pressure sensor 1550 is in communication with the control unit 1530. The pressure sensor 1550 is used to gradually apply pressure to a user's body part, stimulate the user's body, particularly at the joints, and detect and record in real time the user's muscle response. When the muscle of the user generates conditioned reflex and the reaction action is larger, the bearing strength of the muscle of the user under the action of the force is indicated. A greater pressure value of pressure sensor 1550 indicates a more relaxed muscle of the user and a lesser pressure value of pressure sensor 1550 indicates a more sore muscle of the user. The pressure sensor 1550 transmits the detected information on the degree of soreness to the control unit 1530, and the control unit 1530 calculates an operation program of the massage device 1510 and/or the illumination device 1520 based on the received information, and then controls the operation of the massage device 1510 and/or the illumination device 1520.

The pressure sensor 1550 is disposed at an end of the force application end of the actuator 1512. When the execution unit 1512 massages the human body and stimulates the body part of the user, the pressure sensor 1550 is in contact with the human body and is stressed, and the feedback situation of the muscle or other tissues of the human body detected by the pressure sensor 1550 on the massage force application can be used for predicting the aching pain degree data of the muscle of the user according to the display indication number of the pressure sensor 1550 reflecting the greater condition of the stimulation made by the user, so as to further adjust the massage strength and the vibration frequency of the execution unit 1512.

The degree of soreness of the muscles of the human body can be analyzed by integrating the determination results of the plurality of pressure sensors 1550. For example, in some embodiments, the user's personal information, as well as the measurements of the pressure sensor 1550 at a particular location, may be combined to determine the soreness of the muscles of the human body. For example, when the user is a company employee who needs to sit for a long time, the personal information of the user can be reflected, and the muscle soreness of the user can be judged mainly according to the whole muscle conditioned reflex of the waist, the shoulders and the neck in a customized manner; when the personal information of the user reflects that the occupation of the user is a work needing to stand for a long time, such as police and security personnel, the muscle soreness degree of the user can be judged according to the muscle conditioned reflex of the legs and the waist in a customized manner; of course, the specific condition for judging the muscle soreness may be set by the user, and will not be described in detail here.

The embodiment also provides a control method of the massage system, which comprises the following steps:

the output of the massage device 1510 and/or the illumination device 1520 is controlled based on the detection data of the pressure sensor 1550.

Taking a massage chair as the massage device 1510, massaging the user by the execution unit 1512, detecting the soreness of the human body by the pressure sensor 1550, and reflecting the massage mode of the massage device 1510 by the illumination intensity and the flashing frequency of the illumination device 1520 as an example, a more specific application scenario of the present embodiment is as follows:

The massage chair is started in a default starting mode, for example, the massage chair is started in a second gear (the massage strength is 20N, the vibration frequency is 30Hz) to massage the user, and the illumination mode is loaded into a mode which acts synchronously with the massage chair in response to the starting of the massage chair, for example, the illumination intensity of the current illumination mode is 50lx, and the flicker frequency is 20Hz, which indicates that the muscle soreness of the default user is low and relaxed at the moment. When the execution unit 1512 performs the massage operation, the pressure sensor 1550 gradually applies pressure to the body part of the user, detects the muscle reaction of the user in real time, and transmits the pressure value to the control unit 1530 when it is detected that the conditioned reflex occurs when the applied pressure displayed by the pressure sensor 1550 by the user is 100N. The control unit 1530 compares the pressure value with a pre-stored pressure value (for example, 60N) that the muscle of the human body can bear in the relaxed state. The detected pressure value is higher than a preset pressure value, and thus, the control unit 1530 determines that the muscle of the user is in a relaxed state. In response to learning that the user's muscles are in a relaxed state, in some embodiments, a massage regime may be employed that reduces or maintains the intensity of the massage. Taking the reduction of the massage intensity as an example, the control unit 1530 sends an instruction to the massage chair, controls the execution unit 1512 of the massage chair to switch the operation mode from the second gear (the massage intensity is 20N, and the vibration frequency is 30Hz) to the first gear (the massage intensity is 10N, and the vibration frequency is 10Hz), and reduces the massage intensity and the vibration frequency for the user. At the same time, the control unit 1530 transmits an instruction to the lighting device 1520, controls the lighting device 1520 to switch the lighting mode, and decreases the illuminance of the lighting device 1520 from 50lx to 30lx and increases the flicker frequency from 20Hz to 5 Hz.

If the pressure sensor 1550 detects that the user has conditioned reflex at 30N in the second gear (the massage force is 20N, and the vibration frequency is 30Hz), and the pressure value is smaller than the preset pressure value, the control unit 1530 determines that the muscle of the user is in the aching state. In response to learning that the user's muscles are in a sore state, in some embodiments, a massage regime that increases the intensity of the massage may be employed. The control unit 1530 sends an instruction to the massage chair, controls the execution unit 1512 of the massage chair to switch the action mode, and increases the massage strength and the vibration frequency for the user from the second gear (the massage strength is 20N, and the vibration frequency is 30Hz) to the third gear (the massage strength is 40N, and the vibration frequency is 60 Hz). At the same time, the control unit 1530 transmits an instruction to the lighting device 1520, controls the lighting device 1520 to switch the lighting mode, and increases the illuminance of the lighting device 1520 from 50lx to 100lx and increases the flicker frequency from 20Hz to 50 Hz.

The massage system provided by the embodiment can flexibly detect the muscle soreness degree of a user, flexibly change the action mode according to the detected muscle soreness degree, and adjust the massage strength and the vibration frequency. The illumination and the flicker frequency of the lighting device 1520 are changed according to the detected muscle soreness degree, and the user can be prompted with a visual feeling through the illumination, the flicker frequency and the change thereof, so as to remind the user of the muscle soreness degree. In some embodiments, the user can be prompted to execute the next massage mode of the unit 1512 by using the change of the illumination mode, so that the mode switching event in the massage process can be perceived more intuitively, and the consistency and predictability of the massage process are improved.

The pressure sensors 1550 in this embodiment may also be disposed in multiple numbers and distributed at the ends of multiple execution units 1512 of the massage chair, one or more pressure sensors 1550 may be configured at the end of each execution unit 1512, and each pressure sensor 1550 may quantitatively record the pressure data applied thereon. In this embodiment, the pressure sensors 1550 detect the pressure values of the user's body parts when they are conditionally reflected under pressure, and the muscle soreness data of the user can be analyzed according to the pressure data of the respective pressure sensors 1550 of the massage chair. For example, for a user with sore muscles, particularly when the muscles of the legs are sore and the user does not feel strong, the user is prone to being paralyzed and sitting in the massage chair, so that when the user sits in the massage chair, the pressure sensor 1550 at the hip part receives a certain pressure impulse, and the pressure impulse data with a high pressure value in a specific time range recorded by the pressure sensor 1550 can be used as a basis for judging the sore muscle degree of the user. Specifically, when the user initially sits in the massage chair, for example, the impulse data of the pressure sensors 1550 for the buttocks, the force application condition of each pressure sensor 1550 for the massage chair can be used to measure whether the user is paralyzed or end-seated when initially sitting in the massage chair, so that the soreness of the muscles of the user, particularly the muscles of the legs, is analyzed according to the body state of the user reflected by the pressure sensors 1550. For the analysis of the user's posture, other methods may be used, and are not described herein.

Similarly to the present embodiment, in some embodiments, the pressure sensor 1550 may be used to estimate parameters such as fatigue degree and muscle tension degree of the user, and estimate a probability suitable for switching to a predetermined operation mode based on the parameters, and select the one with the probability higher than a threshold or the highest value.

As shown in fig. 23, the method for controlling the smart home system according to the present embodiment includes:

a muscle soreness/fatigue information acquiring step of acquiring a plurality of different state information of the smart home device, wherein the state information includes muscle soreness/fatigue information of a user;

and a motion pattern matching step, wherein the motion pattern of the corresponding massage device/lighting device is executed at least partially based on muscle soreness/fatigue.

[ sixteenth embodiment ] of the present invention

The main difference between the smart home system provided in this embodiment and the first embodiment is that the smart home system further includes a clock unit (not shown), where the clock unit has a timing function, and is capable of sending a signal to the control unit 170 within a predetermined time period to drive the control unit 170 to match a corresponding action pattern for the massage device 110, where the predetermined time period may be multiple periods, the clock unit is capable of sending different signals corresponding to different time periods, and the drive control unit 170 matches an action pattern corresponding to the signal for the massage device 110, and thus, the smart home system can be differentially operated based on different time periods in a day, and further provide a richer use scene for a user, and more specifically, the time length of each time period can also be defined by the user.

The clock unit may be a signal generator with a timing function, which may be separately disposed and communicatively connected to the control unit 170, or may be integrated in the control unit 170.

In the following, referring to the table to exemplarily describe the operation mode of the smart home system provided in this embodiment, the clock unit can select at least one time period from twenty-four hours of a day, and specifically, taking the example that the clock unit selects three time periods of morning, noon, and evening, the clock unit can generate the first signal, the second signal, and the third signal to the control unit 170 correspondingly in the three time periods.

In this embodiment, the morning time period is defined as 6:00-9:00, the noon time period is defined as 11:30-13:30, and the evening time period is defined as 18:00-22:00 as an example, the clock unit can send a first signal to the control unit 170 during the morning time period, and the control unit 170 can automatically match a first action pattern for the massage device 110 when the massage device is running, and because the user usually starts a whole new day after using the massage device 110 and puts into work or processes other matters during the morning time period, the user usually needs to keep the mind awake after the massage device 110 finishes massage service, and accordingly, the first action pattern is designed based on the above considerations so that the user can start a new day life in a more full mental state.

Specifically, the first action mode is decomposed into a front section and a rear section in time sequence, and the front section and the rear section only represent chronological order, and in the first action mode, a massage service with higher intensity can be matched for the user so that the user becomes awake.

Preferably, a relatively mild massage service may be provided to the user at the front stage and a massage service with higher intensity may be provided to the user at the rear stage, so that the user can adapt to the massage intensity with higher intensity.

In order to enable the user to obtain a better use experience, in the first action mode, the other smart home devices can be linked with the massage device 110:

preferably, in the first operation mode, the overall illumination brightness of the illumination device 120 is changed from dark to light to make the user more awake from the perspective of visual stimuli, wherein since the main illumination condition of the room is provided by the first illumination apparatus 121, the overall illumination brightness of the illumination device 120 can be changed by turning up the brightness of the first illumination apparatus 121.

Preferably, in the first operation mode, the color temperature of the illumination apparatus 120 is changed from low to high as a whole, and for example, the color temperature of the first illumination device 121 is adjusted from a warm color system to a cold color system, thereby making it possible to further make the user more conscious.

Preferably, in the first action mode, the position of the lighting device 120 can be changed from top to bottom, for example, the position of the first lighting device 121 in the height direction is located on the upper side of the second lighting device 122, the second lighting device 122 is turned on first in the front section of the first action mode, and the first lighting device 121 is turned on in the rear section of the first action mode, thereby not only realizing the adjustment of the spatial brightness, but also enabling the change of the lighting environment to be more hierarchical and the change of the lighting conditions to be smooth in different hierarchies, enabling the user to gradually become mentally crisp from sleeping eye without being subjected to more abrupt sensory stimulation, and obtaining better use experience.

Preferably, in the first operation mode, the lighting range of the lighting device 120 that is turned on may be gradually changed from small to large, so that the visibility of the room gradually increases, and a visual experience that the sense organ is gradually clear is created for the user, and specifically, the lighting range may be gradually expanded by using the function that the first lighting device 121 is gradually turned on from near to far, so as to create a gradually clear visual atmosphere.

Preferably, in the first operation mode, the air supply devices 130 can provide air supply services for the user, and specifically, the front air supply device 130 is not turned on or blows breeze, and the rear air supply device 130 blows clean air, so that the user is gradually awake.

Preferably, in the first operation mode, the audio device 150 can play a light music, and further, the volume of the music is gradually increased from small to large for the user to adapt.

Preferably, in the first mode of action, the fragrance spreading device 140 releases a fresh scent to serve a refreshing function.

During the midday period, the clock unit can send a second signal to the control unit 170, based on which the control unit 170 can automatically match the second motion pattern for the user while the massage device 110 is running. In the middle of the day, the user finishes the morning busy and work, and usually needs to take a short noon break, and due to the limited time, the user needs to relieve the fatigue of the body and timely recover the waking state so as to start the afternoon work or study, therefore, in the second action mode, the second action mode is decomposed into a front section and a rear section in a time sequence, the front section and the rear section only represent the chronological sequence, the massage device 110 provides a mild massage service in the front section so as to relieve the fatigue of the user, and provides a higher-strength massage service in the rear section so as to recover the waking state of the user.

Preferably, in the second operation mode, the overall illumination brightness of the illumination apparatus 120 is changed from light to dark in the front section and from dark to light in the rear section, so as to make the user relax in the front section from the viewpoint of visual stimulation and wake up gradually in the rear section, and specifically, the overall illumination brightness of the illumination apparatus 120 may be changed by adjusting the brightness of the first illumination device 121.

Preferably, in the second operation mode, the overall color temperature of the lighting apparatus 120 is from high to low in the front section and from low to high in the rear section, and in particular, this effect can be achieved by adjusting the color temperature of the first lighting device 121, which is not described herein again.

Preferably, in the second action mode, the position of the lighting device 120 that is turned on may be from top to bottom in the front section and from top to bottom in the rear section, so that the change level of the lighting environment is more, and the change of the lighting conditions at different levels tends to be smooth, so that the user gradually relaxes and becomes awake gradually without being subjected to a more abrupt sensory stimulation, thereby obtaining a better use experience.

Preferably, in the second action mode, the illumination range of the illuminated illumination device 120 may be gradually changed from large to small in the front section and from small to large in the rear section, so that the visibility of the room is gradually reduced when the user relaxes and has a rest, and the visibility of the room is gradually increased when the user wakes up, so as to create a gradually changing visual experience for the user, thereby facilitating the user to enter the rest state and recover from waking.

Preferably, in the second operation mode, the air supply devices 130 can provide air supply services for the user, specifically, the front air supply device 130 is turned off from air supply, and the rear air supply device 130 is turned off from air supply to air supply, so that the user gradually enters a rest state in the front section and is gradually awake in the rear section.

Preferably, in the second action mode, the audio device 150 can play the relaxing music in the front section to gradually relax the user, and further, the volume of the music is gradually turned down to avoid disturbing the user; the audio device 150 plays a light music in the back section, and further, the volume of the music is gradually increased from small to large so as to be adapted to the user and be gradually wakeful.

Preferably, in the second action mode, the fragrance-diffusing apparatus 140 releases a soothing smell in the front section to gradually relax the user and a refreshing smell in the rear section to play a refreshing role.

During the evening time period, the clock unit can send a third signal to the control unit 170, based on which the control unit 170 can automatically match the third motion pattern for the user while the massage device 110 is running. Since the user usually finishes the course of a day in the evening, and needs to deeply relieve fatigue and enjoy mind and body, in the third action mode, the massage method of the massage device 110 is mild, so that the user can relax the mind and body and can take a sleep.

Preferably, in the third action mode, the overall illumination brightness of the illumination device 120 is changed from light to dark to gradually relax the user from the perspective of visual stimulation, wherein, since the main illumination condition of the room is provided by the first illumination apparatus 121, the overall illumination brightness of the illumination device 120 can be changed by turning down the brightness of the first illumination apparatus 121.

Preferably, in the third operation mode, the color temperature of the lighting apparatus 120 is adjusted from a high color temperature to a low color temperature, for example, the color temperature of the first lighting device 121 is adjusted from a cold color system to a warm color system, thereby further relaxing the mind and body of the user.

Preferably, in the third operation mode, the lighting device 120 may be located from top to bottom, specifically, the third operation mode is divided into a front section and a rear section in a time sequence, the front section and the rear section only represent a chronological sequence, the first lighting device 121 is turned on at the front section of the third operation mode, the first lighting device 121 is turned off at the rear section of the third operation mode, and the second lighting device 122 is turned on at the rear section of the third operation mode, so that while the room brightness is reduced, the lighting environment changes more levels, and the change of the lighting conditions at different levels tends to be smooth, so that the user is not subjected to a more abrupt sensory stimulation, thereby obtaining a better use experience.

Preferably, in the third operation mode, the lighting range of the lighting device 120 that is turned on may be gradually changed from large to small, so that the visibility of the room gradually decreases to create a gradually dim visual experience for the user, and specifically, the lighting range may be gradually reduced by utilizing the function of the first lighting device 121 that is gradually turned off from far to near to create a gradually dim visual atmosphere.

Preferably, in the third operation mode, the air supply devices 130 can provide air supply services for users, specifically, the front air supply device 130 blows breeze or fresh air, and the rear air supply device 130 is turned off, so that users can brew drowsiness.

Preferably, in the third operation mode, the audio device 150 can play a light music, and further, the volume of the music is gradually increased from small to large for the user to adapt.

Preferably, in the third action mode, the fragrance diffusion device 140 releases the nerve-soothing smell, further providing a relaxing rest atmosphere for the user.

Preferably, in the first to third action modes, the display device 160 may further display different image information or play video information to assist other smart home devices to create a scene atmosphere together, and preferably, the display device 160 and the sound device 150 are communicatively connected, so that when the display device 160 plays the video information, the sound device may selectively stop playing music, specifically, in the first action mode, the display device 160 may play a thrilling racing car program, and in the third action mode, the display device 160 may play "animal world" to play a hypnotic role.

Watch two

It should be noted that, in this embodiment, the time period division and the operation parameters of each smart home device may be defined by the user according to actual needs.

It should be noted that, since the lighting conditions provided by the sunlight may affect the lighting atmosphere created by the lighting device 120 in the morning and at noon, the smart home system preferably further includes a motorized window treatment (not shown) capable of isolating at least part of the sunlight, the motorized window treatment is communicatively connected to the control unit 170 and is capable of operating under the control of the control unit 170, and the control unit 170 is capable of sending a command to close the motorized window treatment to reduce the effect of the sunlight on the lighting atmosphere when receiving the first signal and/or the second signal.

In the embodiment, according to different time periods, the actual requirements of the user are fully considered, and the adaptive action mode is matched for the user, so that the user obtains better use experience.

As shown in fig. 24, the method for controlling the smart home system according to the present embodiment includes:

a time period selection step, wherein one or more time periods are selected from one day;

A time period information acquisition step of acquiring time period information; specifically, the control unit 170 acquires time period information via a signal sent by the clock unit;

and an action mode matching step, wherein the intelligent home system matches a corresponding action mode based on the time period information.

[ embodiment seventeen ]

A seventeenth embodiment provides a control system of an intelligent home system based on the first embodiment, as shown in fig. 25, the control system mainly includes a user interface 1700 and a control unit 1701, a user sends a control signal to the control unit 1701 through the user interface 1700, the control unit 1701 sends a control instruction to each of the intelligent home devices 190 according to the received control signal, each of the intelligent home devices 190 operates based on the control instruction and can feed back operating state information to the control unit 1701, the control unit 1701 can show the operating state information to the user through the user interface 1700, and the user can send a new control signal according to the operating state information received from the user interface 1700 and the requirements of the user.

Among other things, the user interface 1700 includes at least a control panel 1702, the control panel 1702 having at least:

the action mode selection function is used for providing at least two action modes of the intelligent home system for selection;

An action mode editing function which provides an action mode that is editable;

an action mode newly-building function, namely combining and newly-building an action mode of the intelligent home system according to the collocation of the action modes of the intelligent home devices 190;

the action mode sharing function can share the action mode of the intelligent home system to other intelligent home systems in the same communication network; and

and an action mode saving function for saving the edited, newly created or shared action mode.

Wherein, the user interface 1700 further comprises: a display device 1703, the display device 1703 having:

and an operation state information display function of displaying at least operation state information of each smart home device 190, and through the function, a user can know the current operation state of each smart home device 190.

Further, the display device 1703 may also display selectable operation modes of the smart home devices 190, for example, the air supply device 130 has two gears, and the display device 1703 may not only display the current gear of the air supply device 130, but also display gear information that the air supply device 130 may adjust, so that a user may know the gear information.

Preferably, the display device 1703 and the control panel 1702 are communicatively coupled and may be integrated into the same device, for example, a kiosk with a touch screen.

Wherein, the user interface 1700 can set one or more of a voice recognition module, a gesture recognition module, an infrared module, a bluetooth module and a facial recognition module besides sending the control signal from the control panel 1702, so that the user can send the control signal by one or more of voice, gesture, infrared signal and bluetooth signal, wherein, the gesture recognition module and the facial recognition module can be cameras capable of collecting user information, in addition, because the body types, ages and preferences of different users may be different, different action modes may be defined by different users, therefore, through the setting of the facial recognition module, the smart home system can correspondingly match the user with the defined action mode according to the recognition of the user facial information, thereby saving the manual control process, and a more intelligent use experience is provided for the user. Preferably, the user interface 1700 further includes an indication unit 1705 having an indication function, the indication unit 1705 is in communication connection with the control unit 1701, the indication unit 1705 is disposed corresponding to each smart home device 190 and is capable of displaying the operation states of different smart home devices 190, for example, the indication unit 1705 has a plurality of indication lamps, each indication lamp correspondingly indicates the operation state of one of the smart home devices, for example, a first indication lamp (not shown) is used for displaying the operation state information of the massage device 110, when the first indication lamp is turned off, the massage device 110 is turned off, the first indication lamp is turned on and displays different colors, respectively, the massage device 110 is in different operation states, and when the first indication lamp is turned on, the massage device 110 is out of order.

Preferably, the user interface 1700 further includes a voice device 1706, wherein the voice device 1706 is in communication connection with the control unit 1701, and is capable of sending voice to prompt the operation state/operation state information change of each smart home device 190, and broadcasting the control signal received by the control unit 1701 or the sent control instruction by voice.

The user interface 1700 further includes a mobile terminal 1704 equipped with an application program, the mobile terminal 1704 and each smart home device 190 are connected to the same communication network, the application program installed therein can display the running state information of each smart home device 190, and the mobile terminal 1704 has an operation interface for controlling the running of each smart home device 190.

It should be noted that the functions of the display device 1703, the indication unit 1705 and the voice device 1706 may be implemented by an application program installed in the mobile terminal 1704.

Each smart home device 190 is a general name of all or part of smart home devices in the smart home system, and includes, but is not limited to, the massage device 110, the lighting device 120, the air supply device 130, the fragrance diffusion device 140, the sound device 150, and the display device 160 mentioned in the first embodiment.

In addition, in some embodiments, the local action mode may be uploaded to the cloud sharing or downloaded from the cloud to the local, so as to improve the richness and commonality of the operation mode of the smart home system.

It should be noted that the massage device in some of the above embodiments may also be replaced by other similar personal health care products, such as high frequency therapy devices, or any other suitable smart home devices.

It will be appreciated by those of ordinary skill in the art that in the embodiments described above, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be basically implemented without these technical details and various changes and modifications based on the above-described embodiments. Accordingly, in actual practice, various changes in form and detail may be made to the above-described embodiments without departing from the spirit and scope of the invention.

Claims (19)

1. A control method is applied to an intelligent home system, the intelligent home system comprises a plurality of intelligent home devices, and the control method is characterized by comprising the following steps:

s1: acquiring a plurality of different state information of intelligent household equipment;

s2: determining an action mode of the other intelligent household equipment corresponding to the acquired state information;

s3: the determined action pattern is executed.

2. The control method according to claim 1,

the step S3 includes operating the smart home device with predetermined information, where the predetermined information is any one of a massage force, a massage part, a massage frequency, a temperature, a color temperature, a hue, an illuminance, a height position, an illumination range, an air volume, a sound volume, a fragrance, and a display content.

3. The control method according to claim 1, wherein one smart home device in the step S1 is a massage device, and the other smart home devices in the step S2 are lighting devices.

4. The control method of claim 3, wherein the lighting apparatus comprises a first lighting device,

acquiring first state information of a first stage and second state information of a second stage of the massage apparatus in step S1, the first stage and the second stage being chronologically consecutive, the first stage determining a first action pattern corresponding to the first state information and a second action pattern corresponding to the second state information in step S2 before the second stage,

the second operation mode includes controlling the output of the first lighting device so as to maintain a first range in which the illuminance is equal to or lower than a first predetermined value and so as to reduce the color temperature or change the color tone to a warm tone in the initial period of the second phase.

5. The control method according to claim 4, wherein the illumination apparatus further comprises a second illumination device disposed in the same space as the first illumination device and provided at a lower height than the first illumination device,

further acquiring third state information of a third stage consecutive to the second stage in step S1, determining a third motion pattern corresponding to the third state information in step S2,

the third operation mode includes turning off the first lighting device, turning on the second lighting device, and setting the illuminance of the second lighting device in the first range in a start period of the third stage.

6. The control method of claim 5, wherein the third mode of action further comprises flashing an illumination device directly opposite the massage device with a prescribed dimming curve.

7. The control method according to claim 5,

further acquiring fourth state information of a fourth stage spaced apart from and later than the third stage in step S1, determining a fourth motion mode corresponding to the fourth state information in step S2,

The fourth operation mode includes turning off the second illumination device, turning on the first illumination device, and setting the illuminance of the first illumination device in a second range higher than a second predetermined value in an initial period of the fourth stage.

8. The control method according to claim 3, wherein the illumination apparatus includes a first illumination device and a second illumination device, the first illumination device and the second illumination device being disposed in the same space, and the second illumination device being disposed at a lower position than the first illumination device,

the plurality of different pieces of status information acquired in step S1 include fifth status information of a fifth stage and sixth status information of a sixth stage, wherein the fifth stage and the sixth stage are chronologically spaced apart from each other, and the fifth stage precedes the sixth stage;

determining a fifth action mode corresponding to the fifth status information and a sixth action mode corresponding to the sixth stage in step S2;

the sixth action mode in the step S3 includes,

in a start period of the sixth stage, the second illumination device is turned off, the first illumination device is turned on, and the illuminance of the first illumination device is arranged in a third range higher than a second prescribed value.

9. The control method according to claim 3, wherein the determined operation pattern of the illumination apparatus is to blink the illumination apparatus with a prescribed dimming curve or to change a hue or a color temperature of the illumination apparatus with a prescribed dimming curve.

10. The control method according to any one of claims 1 to 9, wherein the plurality of smart home devices are disposed in the same or adjacent space, and wherein the other smart home devices in step S2 each operate with respect to the predetermined position of the smart home device in step S1.

11. The intelligent home system is characterized in that at least one piece of intelligent home equipment is in communication connection with other intelligent home equipment, and the other intelligent home equipment can correspondingly change an action mode based on the change of the state information of the intelligent home equipment in communication connection with other intelligent home equipment.

12. An air supply device applied to an intelligent home system, wherein the air supply device is controlled by the control method of any one of claims 1-10.

13. A fragrance spreading device applied to an intelligent home system is characterized in that the fragrance spreading device is controlled by the control method of any one of claims 1-10.

14. A display device applied to an intelligent home system is characterized in that the display device is controlled by the control method of any one of claims 1-10.

15. An audio device applied to an intelligent home system, wherein the audio device is controlled by the control method of any one of claims 1 to 10.

16. An illumination device applied to an intelligent home system, wherein the illumination device is controlled by the control method of any one of claims 1 to 10.

17. A massage device applied to an intelligent home system is characterized in that the massage device is controlled by the control method of any one of claims 1-10.

18. The utility model provides a mobile terminal, is applied to intelligent home systems including a plurality of intelligent home devices, its characterized in that includes:

a processor;

a memory storing a program executable by the processor;

the program includes instructions for performing the steps of:

acquiring a plurality of different state information of intelligent household equipment;

determining an action mode of the other intelligent household equipment corresponding to the acquired state information;

instructing the further smart home device to execute the determined action pattern.

19. A storage medium storing instructions for performing the steps of:

acquiring a plurality of different state information of intelligent household equipment;

determining an action mode of the other intelligent household equipment corresponding to the acquired state information;

instructing the further smart home device to execute the determined action pattern.

Images